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Author SHA1 Message Date
Claudio Atzori 65e7461585 Merge pull request 'v9.0.0' (#83) from v9.0.0 into main
Reviewed-on: D-Net/openaire-graph-docs#83
2024-11-04 15:33:38 +01:00
Claudio Atzori 31e18f9d44 added changelog entries for versions 8.0.1 and 9.0.0 2024-11-04 15:32:39 +01:00
Claudio Atzori 31e6f191ee Merge pull request 'dataset vs data' (#82) from dataset_vs_data into main
Reviewed-on: D-Net/openaire-graph-docs#82
2024-11-04 14:06:50 +01:00
Claudio Atzori e7ab244f78 Merge pull request 'Change the selection criteria for the pivot record of a group so that by best pid type becomes the first criteria. This will have the effect to slowly converge to records having DOI pid' (#76) from pivotselectionbypid into main
Reviewed-on: D-Net/openaire-graph-docs#76
2024-11-04 14:05:23 +01:00
Claudio Atzori ffa72b0a71 Use instead of when referring to research data 2024-11-04 14:05:01 +01:00
Claudio Atzori f8acdfaa2e Merge pull request '10084: added cursor pagination. & date range in yyyy format' (#81) from 10084/cursor_pagination_date_format into main
Reviewed-on: D-Net/openaire-graph-docs#81
2024-10-11 15:07:42 +02:00
Alexios Symeonidis dbb8809caf 10084: added cursor pagination. & date range in yyyy format 2024-10-11 15:43:46 +03:00
Claudio Atzori 46a07f5288 FoS and SDG classification pages moved under the indicators ingestion section. Expanded SDG page with some details about the taxonomy 2024-07-30 12:45:00 +02:00
Claudio Atzori 07c86da6a0 added links from the subject element in the data model section to the FoS and the SDG detail pages 2024-07-30 11:56:58 +02:00
Claudio Atzori 09eb9d927d Merge pull request 'v8.0.0 again' (#80) from v8.0.0 into main
Reviewed-on: D-Net/openaire-graph-docs#80
2024-07-30 11:37:40 +02:00
Claudio Atzori f08a75cfd8 renamed version 8.0.0 to 8.2.0 and version 9.0.0 to 8.0.0. Added enrichment by PID section. Adapted data model definitions to the latest public dataset model 2024-07-30 11:36:02 +02:00
Claudio Atzori fd75b11202 Merge pull request 'updated changelog, doiboost dismission' (#79) from v8.0.0 into main
Reviewed-on: D-Net/openaire-graph-docs#79
2024-07-26 13:01:01 +02:00
Claudio Atzori aa843d647b added versions 8.0.0 (June 2024) and 9.0.0 (July 2024) 2024-07-26 13:00:42 +02:00
Claudio Atzori 87cc902dca uodated cheangelog 2024-07-26 12:59:20 +02:00
Claudio Atzori a1819728e8 uodated cheangelog 2024-07-26 12:58:44 +02:00
Miriam Baglioni da4568b7c9 [Orcid Enrichment] Mixing first part oa alternative and this one. Remove As you can see from the last phrase in the text 2024-07-26 12:39:17 +02:00
Miriam Baglioni 891c66a9db [Orcid Enrichment] fixing typos 2024-07-26 12:29:22 +02:00
Claudio Atzori f187b1aafb WIP: added ORCID enrichment alternative 2024-07-26 12:01:20 +02:00
Miriam Baglioni f0d9b74ba5 [Orcid Enrichment] update to the last part of the text for the author name disambiguation algo 2024-07-26 11:04:31 +02:00
Claudio Atzori 9c3ae8f47e WIP: added enrichment by PID section, ORCID enrichment 2024-07-26 10:03:21 +02:00
Claudio Atzori 0884de87bf WIP: ORCID content acquisition 2024-07-24 15:27:54 +02:00
Sandro La Bruzzo 749124253d documented first phase of ORCID 2024-07-23 14:46:15 +02:00
Sandro La Bruzzo 584abf5a42 documented mapping for MAG and crossref 2024-07-18 11:12:24 +02:00
Claudio Atzori b00c45af1c updated changelog, doiboost dismission 2024-07-15 15:04:16 +02:00
Serafeim Chatzopoulos f06b3324f9 Fix typo in Graph API landing page 2024-07-13 22:16:05 +03:00
Serafeim Chatzopoulos 159719d5a2 Add note to limited results in the Graph API 2024-07-12 19:34:43 +03:00
Serafeim Chatzopoulos c7055eaa0f Merge branch 'main' of https://code-repo.d4science.org/D-Net/openaire-graph-docs 2024-07-12 18:30:51 +03:00
Serafeim Chatzopoulos 602ff89f96 Merge branch 'main' of https://code-repo.d4science.org/D-Net/openaire-graph-docs 2024-07-12 18:29:34 +03:00
Serafeim Chatzopoulos 6b98104a27 Merge branch 'main' of https://code-repo.d4science.org/D-Net/openaire-graph-docs 2024-07-12 18:13:18 +03:00
Serafeim Chatzopoulos e189822e49 Fix broken limit for authenticated requests 2024-07-12 18:13:06 +03:00
Serafeim Chatzopoulos a55323382a Merge pull request 'Add Graph API docs' (#77) from graph-api-docs into main
Reviewed-on: D-Net/openaire-graph-docs#77
2024-07-12 16:54:32 +02:00
Serafeim Chatzopoulos ac29accca8 Merge pull request 'Fix broken links in Graph API docs' (#78) from graph-api-docs-fix-links into graph-api-docs
Reviewed-on: D-Net/openaire-graph-docs#78
2024-07-12 16:54:12 +02:00
Serafeim Chatzopoulos 02dcb2d950 Fix broken links 2024-07-12 17:41:11 +03:00
Serafeim Chatzopoulos 1d75eb9d9a Fix sorting direction 2024-07-11 20:05:57 +03:00
Serafeim Chatzopoulos 1b641d86ab Change urls to point to the api-beta && add making requests page 2024-07-11 19:56:14 +03:00
Serafeim Chatzopoulos 8b12f7bf04 Add search, filtering, sorting & paging using the Graph API 2024-07-10 21:22:13 +03:00
Serafeim Chatzopoulos 0b092111e2 Finalise get single entities 2024-07-09 16:49:51 +03:00
Serafeim Chatzopoulos 94e96f64b5 Add get single entities page 2024-07-05 19:38:08 +03:00
Serafeim Chatzopoulos 9cf1a50f47 Add overview of the graph API 2024-07-05 17:55:58 +03:00
Claudio Atzori abc9a2c9c6 updated aggregation diagram 2024-06-26 15:26:59 +02:00
Claudio Atzori 9a3a632eef updated aggregation diagram 2024-06-26 15:17:44 +02:00
Claudio Atzori e6b584a0de updated aggregation diagram 2024-06-26 15:01:48 +02:00
Claudio Atzori 51803d6776 updated aggregation diagram 2024-06-26 14:44:24 +02:00
Giambattista Bloisi 7c8afb7797 Change the selection criteria for the pivot record of a group so that by best pid type becomes the first criteria. This will have the effect to slowly converge to records having DOI pid 2024-06-11 15:37:23 +02:00
Serafeim Chatzopoulos c7a1987c82 Update keywords field description in search-api 2024-06-06 13:33:05 +03:00
Claudio Atzori 0f6cb35251 updated image in graph-production-workflow/aggregation 2024-06-05 15:53:37 +02:00
Claudio Atzori 02120c7397 Merge pull request 'Removing handles from the identifier prefixes' (#75) from pids-and-identifiers-fixes into main
Reviewed-on: D-Net/openaire-graph-docs#75
2024-06-05 10:18:33 +02:00
Claudio Atzori d53d3b9795 Removed handle identifier prefix from the table summarising the id prefixes. Fixed typo. 2024-05-30 10:26:26 +02:00
Claudio Atzori 5963a58908 backport changes from PR#72 to the docs v7.1.3 2024-05-15 16:31:48 +02:00
Claudio Atzori ce74f4fc6c Merge pull request 'Describe OpenAIRE ID stability and usage of Pivot table' (#72) from pid_stability into main
Reviewed-on: D-Net/openaire-graph-docs#72
2024-05-15 16:14:11 +02:00
Claudio Atzori 95c63332b3 Merge branch 'main' into pid_stability 2024-05-15 16:14:03 +02:00
Giambattista Bloisi 75b1cdf92e Describe the usage of the pivot table to improve stability of “representative records” and how “non authoritative” PIDs are used to generate “representative records” 2024-05-13 17:56:30 +02:00
Serafeim Chatzopoulos b7cb15e942 Update affiliation matching page in v7.1.3 2024-05-13 17:56:17 +02:00
Serafeim Chatzopoulos c017c95486 Adjust text in affiliation matching page 2024-05-13 17:56:17 +02:00
mkallipo 4cdb5f7f31 affiliation matching description update 2024-05-13 17:56:17 +02:00
mkallipo f279cdfe10 affiliation matching description update 2024-05-13 17:56:17 +02:00
Serafeim Chatzopoulos 8e3710d970 Update affiliation matching page in v7.1.3 2024-05-04 11:59:14 +03:00
Serafeim Chatzopoulos d4b02e71ad Merge pull request 'Update affiliation matching description' (#74) from update_affiliation_algorithms into main
Reviewed-on: D-Net/openaire-graph-docs#74
2024-05-04 10:57:57 +02:00
Serafeim Chatzopoulos 755c0117cc Adjust text in affiliation matching page 2024-05-04 11:56:31 +03:00
Serafeim Chatzopoulos 5c28427adc Merge branch 'main' of https://code-repo.d4science.org/D-Net/openaire-graph-docs 2024-05-03 15:13:20 +03:00
Serafeim Chatzopoulos 1fc2158abc Merge branch 'main' of https://code-repo.d4science.org/D-Net/openaire-graph-docs 2024-05-03 15:13:15 +03:00
Serafeim Chatzopoulos 8b547c1fee Merge branch 'main' of https://code-repo.d4science.org/D-Net/openaire-graph-docs 2024-05-03 14:34:15 +03:00
Serafeim Chatzopoulos cce0901008 Merge branch 'main' of https://code-repo.d4science.org/D-Net/openaire-graph-docs 2024-05-03 14:34:07 +03:00
Serafeim Chatzopoulos 3d6729c598 Merge branch 'main' of https://code-repo.d4science.org/D-Net/openaire-graph-docs 2024-05-03 14:21:49 +03:00
Serafeim Chatzopoulos 9713276f3e Rename 'impact indicators' to 'citation-based impact indicators' 2024-05-03 14:21:41 +03:00
Serafeim Chatzopoulos 57506751ef Rename 'impact indicators' to 'citation-based impact indicators' 2024-05-03 12:59:33 +03:00
mkallipo f7e9e93209 affiliation matching description update 2024-04-26 11:13:04 +02:00
mkallipo f0adbba8d7 affiliation matching description update 2024-04-26 10:55:10 +02:00
Claudio Atzori 60b5b1e021 Merge pull request 'added changelog for versions 7.1.2 and 7.1.3' (#73) from v7.1.3 into main
Reviewed-on: D-Net/openaire-graph-docs#73
2024-04-24 16:28:02 +02:00
Claudio Atzori 587508f693 added changelog for versions 7.1.2 and 7.1.3 2024-04-24 16:26:47 +02:00
Claudio Atzori 2f1042d747 Merge pull request 'changelog for v7.1.1' (#71) from v7.1.1 into main
Reviewed-on: D-Net/openaire-graph-docs#71
2024-03-14 10:36:25 +01:00
Claudio Atzori f37d8d8e67 changelog for v7.1.1 2024-03-14 10:35:15 +01:00
Claudio Atzori 5e32a5829f added version 7.1.0 2024-02-21 12:22:06 +01:00
Claudio Atzori 48250cc47a Merge pull request 'Update documentation to describe dedup profile v4' (#70) from dedup_v4 into main
Reviewed-on: D-Net/openaire-graph-docs#70
2024-02-21 10:55:51 +01:00
Claudio Atzori 6a58319814 Merge branch 'main' into dedup_v4 2024-02-21 10:55:43 +01:00
Claudio Atzori c84f5f08eb updated changelog 2024-02-21 10:53:05 +01:00
Claudio Atzori 9f8db418c1 updated changelog 2024-02-19 12:19:18 +01:00
Serafeim Chatzopoulos 5abf090dd3 Fix links in Public APIs home page 2024-02-18 18:17:45 +02:00
Claudio Atzori c95c2228b1 fixed field name, minor changes in wording, also in version 7.0.0 2024-02-16 09:49:36 +01:00
Claudio Atzori a2dfc2482e fixed field name, minor changes in wording 2024-02-16 09:49:36 +01:00
Giambattista Bloisi cc17acb259 Fix usage of <br> in markkdown 2024-02-14 09:43:36 +01:00
Claudio Atzori 882be07650 fixed field name, minor changes in wording, also in version 7.0.0 2024-02-12 12:10:29 +01:00
Claudio Atzori 5bf002b969 fixed field name, minor changes in wording 2024-02-12 08:55:57 +01:00
Giambattista Bloisi 77b24157d6 Refinement of research product chapter 2024-02-09 12:45:53 +01:00
Michele De Bonis f4e7332869 decision trees updated 2024-02-08 15:43:44 +01:00
Giambattista Bloisi 24bdb4e8fd Descripe dedupe profile v4 2024-02-08 12:20:05 +01:00
Serafeim Chatzopoulos d8e23c2277 Add link to User Forum 2024-01-24 17:08:36 +02:00
Serafeim Chatzopoulos 1eba5b613b Update v7.0.0 2024-01-17 15:56:05 +02:00
Serafeim Chatzopoulos 06114518ca Change absolute paths to relative ones 2024-01-17 15:22:28 +02:00
Serafeim Chatzopoulos 13c696b417 Change research results to research products 2024-01-17 14:42:18 +02:00
Serafeim Chatzopoulos 096cbbb74e Fix typos in related datasets 2024-01-17 12:40:48 +02:00
Serafeim Chatzopoulos 362b60e29d Merge branch 'main' of https://code-repo.d4science.org/D-Net/openaire-graph-docs 2024-01-17 12:04:44 +02:00
Serafeim Chatzopoulos bdb4c63aa3 Update v7.0.0 2024-01-17 12:04:32 +02:00
Serafeim Chatzopoulos 0b5d027f5f Update v7.0.0 2024-01-17 11:52:11 +02:00
Serafeim Chatzopoulos 4b27dd22ae Rename dump to dataset 2024-01-17 11:36:15 +02:00
Serafeim Chatzopoulos c801abe833 Add version 7.0.0 2024-01-17 11:16:12 +02:00
Serafeim Chatzopoulos e76e5211b9 Add info box 2024-01-17 10:50:48 +02:00
Serafeim Chatzopoulos 317c5824b3 Merge pull request 'Fix dead links' (#67) from api into main
Reviewed-on: D-Net/openaire-graph-docs#67
2024-01-15 18:58:29 +01:00
Serafeim Chatzopoulos f09a6b2f24 Fix dead links 2024-01-15 19:48:55 +02:00
Serafeim Chatzopoulos 23a3fd2810 Merge pull request 'Add authentication pages for APIs' (#66) from api into main
Reviewed-on: D-Net/openaire-graph-docs#66
2024-01-15 18:40:52 +01:00
Serafeim Chatzopoulos 3c1004c7dc Add authentication pages for APIs 2024-01-15 19:40:20 +02:00
Serafeim Chatzopoulos 8deb1dce77 Merge pull request 'Add Docs for APIs' (#65) from api into main
Reviewed-on: D-Net/openaire-graph-docs#65
2024-01-11 17:07:57 +01:00
Serafeim Chatzopoulos ca12a508ba Add Docs for APIs 2024-01-11 18:05:41 +02:00
Claudio Atzori 4a071ba919 beginners kit: updated URL to the version independent DOI 2023-12-12 12:26:23 +01:00
Claudio Atzori a878d9a4b0 revert to previous changelog structure 2023-11-29 10:18:01 +01:00
Claudio Atzori 48a183d53b added version 6.2.2 2023-11-27 11:00:20 +01:00
Serafeim Chatzopoulos 4d20184a1d Update release date in v6.1.1 changelog && add notice in download pages 2023-11-06 16:10:24 +02:00
Serafeim Chatzopoulos 9b0f50794e Add v6.1.1 2023-11-06 14:54:17 +02:00
Serafeim Chatzopoulos 2a8d984d0a Add v6.1.1 2023-11-06 14:53:42 +02:00
Claudio Atzori 5dffc486f2 Merge pull request 'Update of introduction to the deduplication section' (#59) from deduplication into main
Reviewed-on: D-Net/openaire-graph-docs#59
2023-11-06 12:48:03 +01:00
Claudio Atzori da21610ee4 Merge branch 'main' into deduplication 2023-11-06 12:47:33 +01:00
Claudio Atzori 2cdc031839 Merge pull request 'v6.1.1' (#63) from v6.1.1 into main
Reviewed-on: D-Net/openaire-graph-docs#63
2023-11-06 12:46:20 +01:00
Claudio Atzori 62c6f4a3a1 Merge branch 'main' into v6.1.1 2023-11-06 12:44:26 +01:00
Serafeim Chatzopoulos 493291a327 Change 'relation' to 'relationship' in relationship-object.md 2023-11-02 12:28:30 +02:00
Serafeim Chatzopoulos 6830c2948c Updat changelog record for v6.1.1 2023-10-31 16:35:24 +02:00
Serafeim Chatzopoulos e73bec7430 Add changelog record for v6.1.1 2023-10-31 16:26:29 +02:00
Serafeim Chatzopoulos ecda5f7c22 Merge pull request 'Add versionless doi for scholix' (#62) from updateScholixLink into main
Reviewed-on: D-Net/openaire-graph-docs#62
2023-10-25 09:14:43 +02:00
Serafeim Chatzopoulos 3f078bb26b Add versionless doi for scholix 2023-10-25 00:13:40 -07:00
Serafeim Chatzopoulos 80cc6c587f Merge pull request 'changed the link to the scholix dataset so it always points to the last version' (#61) from updateScholixLink into main
Reviewed-on: D-Net/openaire-graph-docs#61
2023-10-25 08:55:43 +02:00
Miriam Baglioni 00a0f77ecb changed the link to the scholix dataset so it always points to the last version 2023-10-24 08:41:15 +02:00
Serafeim Chatzopoulos 1f511a1845 Merge pull request 'Updating the "Citation matching" page by adding an entry in references section' (#60) from marekhorst_fixing_citationmatching_references into main
Reviewed-on: D-Net/openaire-graph-docs#60
2023-10-19 14:06:02 +02:00
Marek Horst 3f7e939f57 Updating the "Citation matching" page by adding an entry in references section. 2023-10-19 11:44:02 +02:00
Paolo Manghi ed12572fa1 Update 'docs/graph-production-workflow/deduplication/deduplication.md' 2023-10-18 11:52:06 +02:00
Serafeim Chatzopoulos f1938bd159 Add citation_matching.md changes to current release 2023-10-16 17:25:53 +03:00
Serafeim Chatzopoulos 93e61b95ef Merge pull request 'Fixing the "Citation matching" page short description paragraph by removing two sentences' (#58) from marekhorst_fixing_citationmatching_short_descr into main
Reviewed-on: D-Net/openaire-graph-docs#58
2023-10-16 15:13:35 +02:00
Marek Horst b3421ca0ab Fixing the "Citation matching" page short description paragraph by removing two sentences:
1) phrase that leaked from the page template
2) irrelevant remark about the dataset from the paper and the work carried out in one of the OpenAIRE project incarnations
2023-10-16 14:56:18 +02:00
Claudio Atzori f600fcf8d6 Merge pull request 'download section: zenodo depositions referred as 'dataset' instead of 'dump'' (#57) from v6.0.0_fix into main
Reviewed-on: D-Net/openaire-graph-docs#57
2023-08-22 09:44:34 +02:00
Claudio Atzori e81f9e1b11 download section: zenodo depositions referred as 'dataset' instead of 'dump' 2023-08-22 09:40:46 +02:00
Serafeim Chatzopoulos b1344520fa Merge pull request 'Add changes for version 6.0.0' (#56) from v6.1.0 into main
Reviewed-on: D-Net/openaire-graph-docs#56
2023-08-17 11:01:21 +02:00
Serafeim Chatzopoulos 32f6708557 Merge main into branch 2023-08-17 11:30:22 +03:00
Serafeim Chatzopoulos e540c9afb5 Add versioned folders for v5.2.0 2023-08-17 11:10:24 +03:00
Serafeim Chatzopoulos d0d758c0af Rename current version to 5.2.0 2023-08-17 11:04:14 +03:00
Serafeim Chatzopoulos 5b910df0e2 Add changes for version 6.1.0 2023-08-16 21:02:52 +03:00
Claudio Atzori 5422c5a048 Merge pull request 'Add matomo tracking script' (#55) from 8925 into main
Reviewed-on: D-Net/openaire-graph-docs#55
2023-07-24 09:55:08 +02:00
Claudio Atzori 8274746f0b Merge branch 'main' into 8925 2023-07-24 09:52:18 +02:00
Claudio Atzori a6c79793e1 Merge pull request 'Version 6.0.0' (#54) from v6.0.0 into main
Reviewed-on: D-Net/openaire-graph-docs#54
2023-07-24 09:51:54 +02:00
Claudio Atzori 171c56f1ce updated changelog 2023-07-24 09:49:57 +02:00
Claudio Atzori 4493a93380 updated changelog 2023-07-24 09:44:25 +02:00
Serafeim Chatzopoulos 11c378a47c Add matomo tracking script 2023-07-20 17:07:00 +03:00
Claudio Atzori c7f4f5fe8c created docusaurus version 6.0.0 2023-07-19 10:01:26 +02:00
Claudio Atzori 905c80b042 changes for version 6.0.0 2023-07-19 10:00:10 +02:00
Serafeim Chatzopoulos d851cae07b Add page for enrichment by mining 2023-07-05 00:10:21 +03:00
Thanasis Vergoulis bc0c487f5f Merge pull request 'Enriching the full-text collection process' (#53) from pdf_aggregation into main
Reviewed-on: D-Net/openaire-graph-docs#53
2023-07-04 20:17:38 +02:00
Lampros Smyrnaios 1c668b7fd8 Eliminate the "ambiguous unicode character" warning on Gitea. 2023-07-03 18:07:01 +03:00
Lampros Smyrnaios a4f15a3f83 Add the documentation about the PDF Aggregation Service. 2023-07-03 17:57:30 +03:00
Claudio Atzori 9fbc4cc6e0 Merge pull request 'Add changelog entry for v5.1.3' (#51) from v5.1.3 into main
Reviewed-on: D-Net/openaire-graph-docs#51
2023-06-13 16:06:25 +02:00
Serafeim Chatzopoulos a878ba4385 Add new doc & sidebar files 2023-06-13 17:02:29 +03:00
Serafeim Chatzopoulos 4603ba6cec Add changelog entry for v5.1.3 2023-06-13 16:58:02 +03:00
Serafeim Chatzopoulos fd6aaa299d Hide link to OpenenPlato 2023-06-05 17:41:15 +03:00
Serafeim Chatzopoulos 7b9a8df4ee Change intro 2023-05-08 17:32:16 +03:00
Serafeim Chatzopoulos c11367f286 Updata data model figure 2023-04-21 17:32:14 +03:00
Serafeim Chatzopoulos ea1ea195f4 Change data model figure 2023-04-21 17:20:39 +03:00
Serafeim Chatzopoulos 40ab5d2366 Update 'README.md' 2023-04-19 14:39:27 +02:00
Serafeim Chatzopoulos 47ed9d47d5 Update 'README.md' 2023-04-14 14:20:21 +02:00
Serafeim Chatzopoulos 984bfd6a1b Update 'README.md' 2023-04-14 14:13:04 +02:00
Serafeim Chatzopoulos 42ae72e16b Split relationships in two pages && minor changes in sidebar 2023-04-05 18:28:12 +03:00
Claudio Atzori a33eaabc4e created version 5.1.2, updated changelog 2023-04-05 16:07:05 +02:00
Claudio Atzori 7d123d94cc renamed version 5.2.0 -> 5.1.1 2023-04-05 15:50:13 +02:00
Claudio Atzori 57ed9fbc13 renamed version 5.2.0 -> 5.1.1 2023-04-05 15:49:40 +02:00
Claudio Atzori 8d4f376de1 renamed version 5.2.0 -> 5.1.1 2023-04-05 15:49:21 +02:00
Serafeim Chatzopoulos 5a50af2301 Merge branch 'pdf_aggregation' of https://code-repo.d4science.org/D-Net/openaire-graph-docs into pdf_aggregation 2023-03-22 14:57:07 +02:00
Serafeim Chatzopoulos f530e6b738 Add a dedicated page for enrichment by mining 2023-03-22 14:56:59 +02:00
Serafeim Chatzopoulos 12a0827944 Add a dedicated page for enrichment by mining 2023-03-22 14:56:06 +02:00
Serafeim Chatzopoulos 93e14c1754 Fix broken links 2023-03-15 20:31:12 +02:00
Serafeim Chatzopoulos de89887e7e Update url path for graph-production-workflow; add more details in indictors ingestion page 2023-03-15 20:19:49 +02:00
Claudio Atzori bd4e9bd417 refer to 'more recent versions' rather than a particular one 2023-03-10 11:08:18 +01:00
Claudio Atzori fb5e6cd814 integrating Scholexplorer Bio Entity Datasource documentation (PR#48) 2023-03-09 15:00:45 +01:00
Sandro La Bruzzo 49fc73d09d added mapping uniprot/swiss 2023-03-09 14:21:55 +01:00
Sandro La Bruzzo da45601f2c Added mapping of UNiprot and updated pid types 2023-03-09 14:21:23 +01:00
Claudio Atzori 16c87331e4 created version 5.2.0, updated changelog 2023-03-01 15:32:36 +01:00
Serafeim Chatzopoulos e636f50b12 Add ack link to license page 2023-02-28 14:58:53 +02:00
Serafeim Chatzopoulos 3addaee00d Merge pull request 'Update graph name, logo, and badges' (#46) from Change_graph_name into main
Reviewed-on: D-Net/openaire-graph-docs#46
2023-02-23 12:52:55 +01:00
Serafeim Chatzopoulos 29de468b6a Update graph name, logo, and badges 2023-02-23 13:50:36 +02:00
Claudio Atzori bb0f8335e2 aligned relation labels with the data 2023-02-17 15:41:19 +01:00
Serafeim Chatzopoulos 7f994877e4 Add warning message in download pages 2023-02-14 11:51:07 +02:00
Claudio Atzori d19f9e4342 Added link to a Zeppelin guide 2023-02-07 11:58:00 +01:00
Claudio Atzori 13457c0280 Added link to a Zeppelin guide 2023-02-07 11:50:53 +01:00
Serafeim Chatzopoulos aa18073f86 Merge pull request 'Add warning message in full graph dump page' (#45) from 5.1.0 into main
Reviewed-on: D-Net/openaire-graph-docs#45
2023-02-06 21:07:14 +01:00
Serafeim Chatzopoulos 028479c36c Add warning message in full graph dump page 2023-02-06 22:06:35 +02:00
Serafeim Chatzopoulos aaf64e8c65 Merge pull request 'Version 5.1.0' (#44) from 5.1.0 into main
Reviewed-on: D-Net/openaire-graph-docs#44
2023-02-06 14:17:46 +01:00
Serafeim Chatzopoulos 8146a2706e Add relationship provenance in 5.1.0 2023-02-06 15:17:25 +02:00
Serafeim Chatzopoulos 0f68d79164 Merge branch 'main' of https://code-repo.d4science.org/D-Net/openaire-graph-docs into 5.1.0 2023-02-06 15:15:35 +02:00
Serafeim Chatzopoulos 4b2dcaa5e2 Merge pull request 'Adding provenance to relation types' (#43) from relation_provenance into main
Reviewed-on: D-Net/openaire-graph-docs#43
2023-02-06 14:12:38 +01:00
Serafeim Chatzopoulos 6009ac9a88 Changelog minor fixes: start/release date and dump release format 2023-02-06 15:06:16 +02:00
Serafeim Chatzopoulos 276a645717 Change number of data sources to 2k && replace Grid.ac with ROR 2023-02-06 14:44:20 +02:00
Claudio Atzori a67ece1080 completed provenances in the relation table 2023-02-03 16:00:13 +01:00
Claudio Atzori 6be9720458 created version 5.1.0 2023-02-03 12:37:28 +01:00
Claudio Atzori 73ae675672 preparing version 5.1.0 2023-02-03 12:35:26 +01:00
Serafeim Chatzopoulos fc54cfcf02 Change workflow image 2023-02-02 14:45:42 +02:00
Serafeim Chatzopoulos 4eecc333bc Update intro.md 2023-01-22 21:35:51 +02:00
Serafeim Chatzopoulos 34d2b37c1e Update intro.md 2023-01-22 21:28:34 +02:00
Serafeim Chatzopoulos b95ba3707e Tag version 5.0.0 2023-01-18 17:50:04 +02:00
Serafeim Chatzopoulos e02f71b037 Merge pull request '[deduplication] added relationship redistribution phase' (#40) from deduplication into main
Reviewed-on: D-Net/openaire-graph-docs#40
2023-01-18 16:47:34 +01:00
Serafeim Chatzopoulos 997c31a9df Show only version number 2023-01-18 17:45:16 +02:00
Claudio Atzori c33f7aa62d WIP adding provenance to relation types 2023-01-17 16:00:01 +01:00
Serafeim Chatzopoulos b2a0130ce5 Merge pull request 'Link to the DataCite metadata kernel' (#42) from relation_datacite into main
Reviewed-on: D-Net/openaire-graph-docs#42
2023-01-13 14:16:11 +01:00
Claudio Atzori e34d565882 adding link to the DataCite metadata kernel 2023-01-13 14:14:07 +01:00
Miriam Baglioni 8c2e0e0022 fixed issues on relationship table 2023-01-10 12:34:00 +01:00
Claudio Atzori 937de81e83 make the phases explicit in the text 2023-01-10 12:21:59 +01:00
Claudio Atzori 38e3f8b780 added relationship redistribution phase 2023-01-10 12:08:32 +01:00
Serafeim Chatzopoulos 87ef2724da Add helpdesk in sidebar 2023-01-09 20:05:03 +02:00
Serafeim Chatzopoulos 22e90827e2 Update links on Zenodo for dumps 2023-01-05 18:07:32 +02:00
Serafeim Chatzopoulos 148564e098 Update citation of OpenAIRE Research Graph 2023-01-05 17:58:50 +02:00
Serafeim Chatzopoulos 5921b13dc7 Update 'docs/downloads/full-graph.md' 2022-12-30 22:07:17 +01:00
Serafeim Chatzopoulos 20d9cea33b Update 'docs/changelog.md' 2022-12-30 22:00:07 +01:00
Miriam Baglioni e5574b8490 Merge pull request 'Add versioning section & changelog' (#10) from changelog into main
Reviewed-on: D-Net/openaire-graph-docs#10
2022-12-30 16:35:01 +01:00
Miriam Baglioni 7035ad6878 remove the set of the added relationships. 2022-12-30 16:34:07 +01:00
Miriam Baglioni e234c3630a Merge pull request 'Add beginner's kit text' (#38) from beginners-kit into main
Reviewed-on: D-Net/openaire-graph-docs#38
2022-12-30 16:30:45 +01:00
Miriam Baglioni cb3509ba38 added link to the beginner's kit uploaded on Zenodo 2022-12-30 16:27:50 +01:00
Serafeim Chatzopoulos 5dd5cd836d Change architecture diagram 2022-12-30 17:19:03 +02:00
Serafeim Chatzopoulos 8d78ebc5db Add Beginner's kit in changelog 2022-12-30 16:50:48 +02:00
Serafeim Chatzopoulos 8aa4183dd9 Merge branch 'main' of https://code-repo.d4science.org/D-Net/openaire-graph-docs into changelog 2022-12-30 16:42:52 +02:00
Serafeim Chatzopoulos f15912051f Add beginner's kit text 2022-12-30 16:40:16 +02:00
Serafeim Chatzopoulos b943be8ee3 Fix links from impact measures page to specific properties/objects in the result 2022-12-27 21:22:30 +02:00
Serafeim Chatzopoulos 4c23bb429b Merge pull request 'graph-data-model-revision' (#37) from graph-data-model-revision into main
Reviewed-on: D-Net/openaire-graph-docs#37
2022-12-27 19:24:10 +01:00
Serafeim Chatzopoulos ccf3ea1529 Add info for impact indicators 2022-12-27 19:34:46 +02:00
Miriam Baglioni 709b5f49bd updated changelog 2022-12-27 14:54:28 +01:00
Miriam Baglioni 5f75cd4011 merging with main 2022-12-27 14:47:12 +01:00
Miriam Baglioni f170f72d8d indentation for json 2022-12-27 12:57:36 +01:00
Miriam Baglioni 7bf48ea976 added new relationships 2022-12-27 12:51:52 +01:00
Miriam Baglioni 248e758a94 merge with main 2022-12-27 11:59:15 +01:00
Miriam Baglioni 489bfef146 added the serialization of Indicators at the level of the result. Removed the serialization of measures at the level of the instance 2022-12-27 11:55:54 +01:00
Serafeim Chatzopoulos 0e7b14c0af Merge pull request 'Restructuring data provision section' (#34) from restructure_data_provision into main
Reviewed-on: D-Net/openaire-graph-docs#34
2022-12-23 12:32:17 +01:00
Claudio Atzori 29731b7be7 added links to the explore, connect, provide portals. Further adoption of the OpenAIRE Graph shorter wording 2022-12-23 12:13:43 +01:00
Claudio Atzori 070219b095 added synthetic stats page 2022-12-23 12:11:59 +01:00
Claudio Atzori 8e4172c1f7 usage count text from Dimitris 2022-12-22 16:25:25 +01:00
Claudio Atzori 099a500e88 added merge by id description 2022-12-22 16:21:00 +01:00
Serafeim Chatzopoulos 6e56aa1a4d Add text to compatible sources - aggregation 2022-12-21 21:44:50 +02:00
Alessia Bardi 159f50c9ef simplified some sentences 2022-12-14 19:01:35 +01:00
Alessia Bardi d96049a3ab ignore intellij project file 2022-11-23 14:33:34 +01:00
Serafeim Chatzopoulos c77ac867e0 Add changelog for v5 2022-11-17 14:28:09 +02:00
Serafeim Chatzopoulos 0db019e51a Add versioning section 2022-11-11 19:15:55 +02:00
1936 changed files with 109003 additions and 603 deletions

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.env
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URL="http://snf-23385.ok-kno.grnetcloud.net" URL="https://graph.openaire.eu"
BASE_URL="/" BASE_URL="/docs"

1
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yarn-error.log* yarn-error.log*
.idea/ .idea/
openaire-graph-docs.iml

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This website is built using [Docusaurus 2](https://docusaurus.io/); please check [here](https://docusaurus.io/docs/installation#requirements) the requirements to run the project. This website is built using [Docusaurus 2](https://docusaurus.io/); please check [here](https://docusaurus.io/docs/installation#requirements) the requirements to run the project.
## Clone repository
```
$ git clone https://code-repo.d4science.org/D-Net/openaire-graph-docs.git
```
## Local installation and deployment
## Local installation and development
From https://docusaurus.io/docs/installation#requirements From https://docusaurus.io/docs/installation#requirements
> Node.js version 16.14 or above (which can be checked by running node -v) > Node.js version 16.14 or above (which can be checked by running node -v)
Clone the repository:
To install the required packages use:
``` ```
$ npm install git clone https://code-repo.d4science.org/D-Net/openaire-graph-docs.git
```
NOTE: please use git branches for introducing new changes.
Install the required packages:
```
npm install
``` ```
The following command starts a local development server and opens up a browser window. Note that most changes are reflected live without having to restart the server. Start a local development server (opens in a new browser window).
``` ```
$ npm run start npm run start
``` ```
NOTE: most changes are reflected live without having to restart the server.
Generate the static content into the `build` directory using the command tha follows. Then this directory can be served using any static contents hosting service.
Before issuing a Pull Request, please ensure that the following command runs successfully:
``` ```
$ npm run build npm run build
``` ```
NOTE: This command generates the static content into the `build` directory.
Then this output directory is issued to deploy the documentation website.
## Deployment using Docker ## Deployment using Docker
@ -60,3 +64,6 @@ When tagging a new version, the document versioning mechanism will:
* Copy the full `docs/` folder contents into a new `versioned_docs/version-<versionName>/` folder. * Copy the full `docs/` folder contents into a new `versioned_docs/version-<versionName>/` folder.
* Create a versioned sidebars file based from your current sidebar configuration, saved as `versioned_sidebars/version-<versionName>-sidebars.json`. * Create a versioned sidebars file based from your current sidebar configuration, saved as `versioned_sidebars/version-<versionName>-sidebars.json`.
* Append the new version number to `versions.json`. * Append the new version number to `versions.json`.
Therefore, when previewing the compiled site locally with `npm run start`, ensure to visualise the `Next` version on the browser as it shows the changes under `/docs`.
To change a version that was already versioned, the source files to be modified are in the `versioned_docs/version-<versionName>/` folder.

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# Guide for authenticated requests
The OpenAIRE APIs can be accessed over HTTPS both by authenticated and non authenticated requests.
You can use authenticated requests to increase the rate limit of your requests (please refer [here](./terms#authentication--limits) for the current API rate limits).
There are 2 main modes that you can use to authenticate API requests:
* [Personal access tokens](#personal-access-token)
* [Registered services](#registered-services)
In the following, we elaborate on these modes.
## Personal access token
To access the OpenAIRE APIs with better rate limits you can use your personal access token. To have access to the following functionalities you need to login to OpenAIRE. In case you are not already a member you will need to register first and provide your [Personal information](https://develop.openaire.eu/personal-info).
:::info New!
The registration process has been updated! In order to visit the Personal Token and Registered Services functionalities you need to fill in the Personal Information form available [here](https://develop.openaire.eu/personal-info). This update will not affect the operation of your existing services. However, if you want to register a new service or access/modify an existing one, you will need to provide your personal information first.
:::
### How to create your personal access token
To create your personal access token go to [your personal access token page](https://develop.openaire.eu/personal-token) and copy it!
:::info
Your access token is valid for an hour.
:::
:::caution
Do not share your personal access token. Send your personal access token over HTTPS.
:::
### How to use your personal access token
To access the OpenAIRE APIs send your personal access token using the Authorization header.
```js
GET https://api.openaire.eu/{resourceServicePath}
Authorization: Bearer {ACCESS_TOKEN}
```
### An hour is not enough? What to do.
To prolong your access to our APIs you can use a **refresh token** that allows you to programmatically issue a new access token.
To get your refresh tokeng go to [your personal access token page](https://develop.openaire.eu/personal-token) and click the **"Get a refresh token"** button to get your refresh token.
OpenAIRE refresh token expires after 1 month.
In case you already have a refresh token a new one will be issued and the old one will no longer be valid.
Please copy your refresh token and store it confidentially. You will not be able to retrieve it. Do not share your refresh token. Send your refresh token over HTTPS.
Since the OpenAIRE refresh token expires after one month, when a client gets a refresh token, this token must be stored securely to keep it from being used by potential attackers. If a refresh token is leaked, it may be used to obtain new access tokens and access protected resources until a new one is issued or it expires.
To get a personal access token using your refresh token you need to make the following request:
```js
GET https://services.openaire.eu/uoa-user-management/api/users/getAccessToken?refreshToken={your_refresh_token}
```
The response has the following format:
```json
{
"access_token": "...",
"token_type": "Bearer",
"refresh_token": "...",
"expires_in": "...",
"scope": "...",
"id_token": "..."
}
```
## Registered services
If you have a service (client) that you want to interact with the OpenAIRE APIs you need to register it.
:::info
You can register up to 5 services.
:::
We offer two ways of authenticting your service: the Basic Authentication and the Advanced Authentication.
### Which one is for me?
| | How | Client Credential Issuer | Authentication Method |
| --- | --- | --- | --- |
| **Basic** | Client ID & Client Secret | OpenAIRE AAI server | Client Secret (Basic) |
| **Advanced** | Private Key signed JWT | Service owner | Private Key JWT Client Authentication |
For the **Basic Authentication** method the OpenAIRE AAI server generates a pair of _Client ID_ and _Client Secret_ credentials for your service upon its registration. The service sends the client id and client secret when authenticating to the OpenAIRE AAI Server to obtain the access token for the OpenAIRE APIs. The OpenAIRE AAI server checks whether the client id and client secret sent is valid. [Continue reading for the Basic Authentication](#basic-service-authentication-and-registration).
For the **Advanced Authentication** method your service does not send a client secret but it uses a _self signed client assertion_ to authenticate to the OpenAIRE AAI server in order to obtain the access token for the OpenAIRE APIs. The client assertion is a JWT that must be signed with RSASSA using SHA-256 hash algorithm. The OpenAIRE AAI server validates the client assertion using the public key that you have provided upon the service registration. [Continue reading for the Advanced Authentication](#advanced-service-authentication-and-registration).
:::info
The Advanced Authentication method allows the OpenAIRE AAI server to verify that the client authentication request at the token endpoint was signed by your service and not altered in any way. This is more computation intensive compared to the Basic Authentication but it ensures non-repudiation. On the other hand, the Basic Authentication is more lightweight and easy to deploy but it does not provide signature verification, and there is always a possibility of the Client ID/secret credentials being stolen. Note that tThe Advanced authentication method gives a higher level of security to the process as long as it is used correctly, i.e. when the signed JWT has a short duration. When the duration of the JWT is long, the process is no different from the basic one.
:::
### Basic service authentication and registration
To have access to the following functionalities you need to login to OpenAIRE. In case you are not already a member you will need to register first and provide your [Personal information](https://develop.openaire.eu/personal-info).
:::info New!
The registration process has been updated! In order to visit the Personal Token and Registered Services functionalities you need to fill in the Personal Information form available [here](https://develop.openaire.eu/personal-info). This update will not affect the operation of your existing services. However, if you want to register a new service or access/modify an existing one, you will need to provide your personal information first.
:::
For the **Basic Authentication** method the OpenAIRE AAI server generates a pair of _Client ID_ and _Client Secret_ for your service upon its registration. The service uses the client id and client secret to obtain the access token for the OpenAIRE APIs. The OpenAIRE AAI server checks whether the client id and client secret sent is valid.
#### How to register your service
To register your service you need to:
1. Go to your [Registered Services](https://develop.openaire.eu/apis) page and click the **\+ New Service** button.
2. Provide the mandatory information for your service.
3. Select the **Basic** Security level.
4. Click the **Create** button.
Once your service is created, the _Client ID_ and _Client Secret_ will appear on your screen. Click "OK" and your new service will be appear in the list of your [Registered Services](https://develop.openaire.eu/apis) page.
#### How to make a request
##### Step 1. Request for an access token
To make an access token request use the _Client ID_ and _Client Secret_ of your service.
```js
curl -u {CLIENT_ID}:{CLIENT_SECRET} \
-X POST 'https://aai.openaire.eu/oidc/token' \
-d 'grant_type=client_credentials'
```
where **{CLIENT_ID}** and **{CLIENT_SECRET}** are the _Client ID_ and _Client Secret_ assigned to your service upon registration.
The response is:
```json
{
"access_token": ...,
"token_type": "Bearer",
"expires_in": ...
}
```
Store the access token confidentially on the service side.
##### Step 2. Make a request
To access the OpenAIRE APIs send the access token returned in **Step 1**.
```js
GET https://api.openaire.eu/{resourceServicePath}
Authorization: Bearer {ACCESS_TOKEN}
```
### Advanced service authentication and registration
To have access to the following functionalities you need to login to OpenAIRE. In case you are not already a member you will need to register first and provide your [Personal information](https://develop.openaire.eu/personal-info).
:::info New!
The registration process has been updated! In order to visit the Personal Token and Registered Services functionalities you need to fill in the Personal Information form available [here](https://develop.openaire.eu/personal-info). This update will not affect the operation of your existing services. However, if you want to register a new service or access/modify an existing one, you will need to provide your personal information first.
:::
For the **Advanced Authentication** method your service does not send a client secret but it uses a _self signed client assertion_ to obtain the access token for the OpenAIRE APIs. The client assertion is a JWT that must be signed with RSASSA using SHA-256 hash algorithm. The OpenAIRE AAI server validates the client assertion using the public key that you have provided upon the service registration.
#### Prepare to register your service
Before you register your service you need to prepare a pair of a private key and a public key on your side.
:::info
We accept keys signed with RSASSA using SHA-256 hash algorithm.
:::
To create the key pair you have the following options:
* Use OpenAIRE authorization server built in tool. You can access the service here: [https://aai.openaire.eu/oidc/generate-oidc-keystore](https://aai.openaire.eu/oidc/generate-oidc-keystore).
The response is your **Public and Private Keypair** and has the following format:
```json
{
"p" : ...,
"kty" : "RSA",
"q" : ...,
"d" : ...,
"e" : "AQAB",
"kid" : ...,
"qi" : ...,
"dp" : ...,
"alg" : "RS256",
"dq" : ...,
"n" : ....
}
```
Use the public key parameters (kty, e, kid, alg, n) to create your **Public Key** in the following format:
```json
{
"kty": "RSA",
"e": "AQAB",
"kid": ...,
"alg": "RS256",
"n": ...
}
```
:::info
Store both the **Public and Private keypair** and the **Public key**. You will need them to register your service.
:::
:::caution
Store the **Public and Private keypair** confidentially on the service side.
:::
* Use openssl and then convert the keys to jwk format using PEM to JWK scripts, such as [https://github.com/danedmunds/pem-to-jwk](https://github.com/danedmunds/pem-to-jwk). Alternatively, the client application can read the key pair in PEM format and then convert them, using JWK libraries. Use the public key parameters (kty, e, kid, alg, n) to the service registration.
:::info
You can also provide a public key in JWK format that can be accessed using a link.
:::
#### How to register your service
To register your service you need to:
1. Go to your [Registered Services](https://develop.openaire.eu/apis) page and click the **\+ New Service** button.
2. Provide the mandatory information for your service.
3. Select the **Advanced** Security level.
4. Use the public key parameters (kty, e, kid, alg, n) you previously produced to declare your **"Public Key"** **"By value"** in the following format:
```json
{
"kty": "RSA",
"e": "AQAB",
"kid": ...,
"alg": "RS256",
"n": ...
}
```
**\- OR -**
If your service has a public key in JWK format that can be accessed using a link, you can set **“Public Key”** to **“By URL”**.
5. Click the **Create** button.
Once your service is created it will appear in the list of your [Registered Services](https://develop.openaire.eu/apis) page, with the **Service Id** that was automatically assigned to it by the AAI OpenAIRE service.
#### How to make a request
##### Step 1. Create and sign a JWT
Your service must create and sign a JWT and include it in the request to token endpoint as described in the [OpenID Connect Core 1.0, 9. Client Authentication](https://openid.net/specs/openid-connect-core-1_0.html#ClientAuthentication).
To create a JWT you can use [https://mkjose.org/](https://mkjose.org/). To do so you need to create a **payload** that should contain the following claims:
```json
{
"iss": "{SERVICE_ID}",
"sub": "{SERVICE_ID}",
"aud": "https://aai.openaire.eu/oidc/token",
"jti": "{RANDOM_STRING}",
"exp": {EXPIRATION_TIME_OF_SIGNED_JWT}
}
```
* **iss**, _(required)_ the “issuer” claim identifies the principal that issued the JWT. The value is the **Service Id** that was created when you registered your service.
* **sub**, _(required)_ the “subject” claim identifies the principal that is the subject of the JWT. The value is the **Service Id** that was created when you registered your service.
* aud, _(required)_ the “audience” claim identifies the recipients that the JWT is intended for. The value is **https://aai.openaire.eu/oidc/token**>.
* **jti**, _(required)_ The “JWT ID” claim provides a unique identifier for the JWT. The value is a random string.
* **exp**, _(required)_ the “expiration time” claim identifies the expiration time on or after which the JWT **MUST NOT** be accepted for processing. The value is a timestamp in **epoch format**.
Fill in the payload in the form available at [https://mkjose.org/](https://mkjose.org/), select the Signing Algorithm to be **RS256 using SHA-256** and paste the **Public and Private Keypair** previously created.
To check your JWT you can go to [https://jwt.io/](https://jwt.io/). The **header** should contain the following claims:
```json
{
"alg": "RS256",
"kid": ...
}
```
where **kid** is the one of your **Public and Private Keypair** you used to sign the JWT in **Step 1**.
:::caution
Store the signed key confidentially on the service side. You will need it in Step 2.
:::
##### Step 2. Request for an access token
To make an access token request use the _signed JWT_ that you created in **Step 1**. The OpenAIRE AAI server will check if the signed JWT is valid using the public key that you declared in the **"How to register your service"** process.
```js
curl -k -X POST "https://aai.openaire.eu/oidc/token" \
-d "grant_type=client_credentials" \
-d "client_assertion_type=urn:ietf:params:oauth:client-assertion-type:jwt-bearer" \
-d "client_assertion={signedJWT}"
```
where **{signedJWT}** is the signed JWT created in **Step 1**.
The response is:
```json
{
"access_token": {ACCESS_TOKEN}
"token_type":"Bearer",
"expires_in": ...,
"scope":"openid"
}
```
Store the access token confidentially on the service side.
##### Step 3. Make a request
To access the OpenAIRE APIs send the access token returned in **Step 2**.
```js
GET https://test.openaire.eu/{resourceServicePath}
Authorization: Bearer {ACCESS_TOKEN}
```

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# Broker API
## Introduction
The Broker Service is available to use via the OpenAIRE Content Provider Dashboard. Thanks to the Broker, repositories, publishers or aggregators can exchange metadata and enrich their local metadata collection by subscribing to notifications of different types. The Broker is able to notify providers when the OpenAIRE Graph contains information that is not available in the original collection of the data source. In particular, the data source manager can subscribe via the [Content Provider Dashboard](https://provide.openaire.eu) and be notified about:
* Additional PIDs of its publications (e.g. DOIs)
* Links to projects
* ORCID that can be associated to an author of datasource publications
* Links to Open Access versions
* Additional classification subjects (e.g. subjects from standard schemes like ACM, JEL and DDC)
* Abstracts identified in duplicate publications
* Missing publication dates
All Repository managers approaching the Content Provider Dashboard will be offered the possibility to preview a set of enrichments relative to their repository that OpenAIRE can derive from the Graph. More specifically, enrichments will be organized into categories named topics and representing the different types of enrichments OpenAIRE can build. For each topic the preview consists of 100 “enrichment events”, a subset of all the possible enrichments pertinent to a given repository in the OpenAIRE Graph, that the user can explore by applying filters on different criteria and the total number of events that can be potentially built is highlighted in the UI. Repository managers can create subscriptions for specific topics and that include the filtering criteria they used to analyze the enrichments preview, or can subscribe to all the available topics with no restrictions at once. Once the repository manager creates a subscription, the algorithm analyzing the OpenAIRE Graph will produce the full set of enrichments for the manager's repository, possibly far beyond the 100 enrichments available in the preview. The enrichments will be made available as notifications in a dedicated section in the Content Provider Dashboard UI to be further checked as well as through the broker service API for programmatic access. Notifications will be sent to subscribers every time the OpenAIRE Graph will be updated and analyzed to derive the enrichments.
## Usage Example
The following commands indicate how the broker API documented at [api.openaire.eu/broker](https://api.openaire.eu/broker/swagger-ui/index.html) can be used to access the set of enrichments:
1. Get the list of subscriptions for a given subscriber, e.g.
```js
curl -X GET --header 'Accept: application/json' 'https://api.openaire.eu/broker/subscriptions?email=[subscriber_email]'
```
2. Extract the subscription ID and use it to access the 1st page of enrichment notification records
```js
curl -X GET --header 'Accept: application/json' 'https://api.openaire.eu/broker/scroll/notifications/bySubscriptionId/[sub-1234]'
```
3. Extract the scroll ID from the response to request subsequent pages
```js
curl -X GET --header 'Accept: application/json' 'https://api.openaire.eu/broker/scroll/notifications/[scroll_id]'
```
To simplify accessing the enrichment notification records, please check the OpenAIRE broker cmdline client available on [GitHub](https://github.com/openaire/broker-cmdline-client).
## Terms of Use and SLA
APIs are free-to-use (no sign-up needed) by any third-party service
**Metadata license is CC-BY**: the metadata records retuned by the service can be freely re-used by commercial and non-commercial partners under CC-BY license, hence as long as OpenAIRE is acknowledged as data source.
**Quality of Service**: all API services are running in production 24/7 within the OpenAIRE infrastructure premises deployed at the [data center](http://icm.edu.pl/en/centre-of-technology/) facilities of the [Interdisciplinary Centre for Mathematical and Computational Modelling](http://icm.edu.pl/en/) (ICM).
**APIs rate limits**: please check [here](./authentication).

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# Dspace & EPrints API
<!-- Bulk access to projects -->
The APIs offer custom access to metadata about projects funded by a selection of international funders for the **DSpace** and **EPrints** platforms. The currently supported funders and relative codes are:
* **FP7:** The 7th Framework Programme funded by the European Commission
* **H2020:** Horizon2020 Programme funded by the European Commission
* **HE:** Horizon Europe Programme funded by the European Commission
* **AKA:** Academy of Finland
* **ARC:** Australian Research Council
* **FWF:** Austrian Science Foundation
* **CHISTERA:** CHIST-ERA
* **CIHR:** Canadian Institutes of Health Research
* **HRZZ:** Croatian Science Foundation
* **EEA:** European Environemnt Agency
* **ANR:** French National Research Agency
* **FCT:** The funding programme of Fundação para a Ciência e a Tecnologia, the national funding agency of Portugal
* **MESTD:** The Ministry of Education, Science and Technological Development of Serbia
* **MZOS:** Ministry of Science, Education and Sports of the Republic of Croatia
* **NHMRC:** Australian National Health and Medical Research Council
* **NIH:** US National Institutes of Health
* **NSF:** US National Science Foundation
* **NSERC:** Natural Sciences and Engineering Research Council of Canada
* **NWO:** The Netherlands Organisation for Scientific Research
* **SFI:** Science Foundation Ireland
* **SSHRC:** Social Sciences and Humanities Research Council
* **SNSF:** Swiss National Science Foundation
* **TARA:** Tara Expeditions Foundation
* **TUBITAK:** The National funder of Turkey
* **UKRI:** United Kingdom Research and Innovation
* **WT:** Wellcome Trust
## DSpace/ePrints
DSpace endpoint: http://api.openaire.eu/projects/dspace/$fundingStream/ALL/ALL
ePrints endpoint: http://api.openaire.eu/projects/eprints/$fundingStream/ALL/ALL
The URLs embed the parameters needed to collect projects funded by specific funding stream, where the pattern is FundingStream/FundingSubStream/FundingSubSubStream.
Additional parameters can be concatenated to the URL to refine the results by date (date must be in the form `YYYY-MM-DD`):
* startFrom
* startUntil
* endFrom
* endUntil
## Examples
Get Wellcome Trust projects for EPrints: [http://api.openaire.eu/projects/eprints/WT/ALL/ALL](http://api.openaire.eu/projects/eprints/WT/ALL/ALL)
Get EC-FP7 projects of the specific programme “SP2-IDEAS” for EPrints: [http://api.openaire.eu/projects/eprints/FP7/SP2/ALL](http://api.openaire.eu/projects/eprints/FP7/SP2/ALL)
Get EC-FP7 projects for DSpace that started after the given date: [http://api.openaire.eu/projects/dspace/FP7/ALL/ALL?startFrom=2011-01-01](http://api.openaire.eu/projects/dspace/FP7/ALL/ALL?startFrom=2011-01-01).
## Terms of Use and SLA
APIs are free-to-use (no sign-up needed) by any third-party service.
**Metadata license is CC-BY**: the metadata records retuned by the service can be freely re-used by commercial and non-commercial partners under CC-BY license, hence as long as OpenAIRE is acknowledged as data source.
**Quality of Service**: all API services are running in production 24/7 within the OpenAIRE infrastructure premises deployed at the [data center](http://icm.edu.pl/en/centre-of-technology/) facilities of the [Interdisciplinary Centre for Mathematical and Computational Modelling](http://icm.edu.pl/en/) (ICM).
**APIs rate limits**: please check [here](./authentication).

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# Getting a single entity
This is a guide on how to retrieve detailed information on a single entity using the OpenAIRE Graph API.
## Endpoints
Currently, the Graph API supports the following entity types:
- Research products - endpoint: `GET /researchProducts/{id}`
- Organizations - endpoint: `GET /organizations/{id}`
- Data sources - endpoint: `GET /dataSources/{id}`
- Projects - endpoint: `GET /projects/{id}`
You can retrieve the data of a single entity by providing the entity's OpenAIRE identifier (id) in the corresponding endpoint.
The OpenAIRE id is the primary key of an entity in the OpenAIRE Graph.
:::note
Note that if you want to retrieve multiple entities based on their OpenAIRE ids, you can use the [search endpoints and filter](./searching-entities/filtering-search-results.md#or-operator) by the `id` field using `OR`.
:::
## Response
The response of the Graph API is a [Research product](../../data-model/entities/research-product.md), [Organization](../../data-model/entities/organization.md), [Data Source](../../data-model/entities/data-source.md), or [Project](../../data-model/entities/project.md), depending on the endpoint used.
## Example
In order to retrieve the research product with OpenAIRE id: `doi_dedup___::2b3cb7130c506d1c3a05e9160b2c4108`,
you have to perform the following API call:
[https://api-beta.openaire.eu/graph/researchProducts/doi_dedup___::a55b42c0d32a4a24cf99e621623d110e](https://api-beta.openaire.eu/graph/researchProducts/doi_dedup___::a55b42c0d32a4a24cf99e621623d110e)
This will return all the data of the research product with the provided identifier:
```json
{
id: "doi_dedup___::a55b42c0d32a4a24cf99e621623d110e",
mainTitle: "OpenAIRE Graph Dataset",
description: [
"The OpenAIRE Graph is exported as several dataseta, so you can download the parts you are interested into. <strong>publication_[part].tar</strong>: metadata records about research literature (includes types of publications listed here)<br> <strong>dataset_[part].tar</strong>: metadata records about research data (includes the subtypes listed here) <br> <strong>software.tar</strong>: metadata records about research software (includes the subtypes listed here)<br> <strong>otherresearchproduct_[part].tar</strong>: metadata records about research products that cannot be classified as research literature, data or software (includes types of products listed here)<br> <strong>organization.tar</strong>: metadata records about organizations involved in the research life-cycle, such as universities, research organizations, funders.<br> <strong>datasource.tar</strong>: metadata records about data sources whose content is available in the OpenAIRE Graph. They include institutional and thematic repositories, journals, aggregators, funders' databases.<br> <strong>project.tar</strong>: metadata records about project grants.<br> <strong>relation_[part].tar</strong>: metadata records about relations between entities in the graph.<br> <strong>communities_infrastructures.tar</strong>: metadata records about research communities and research infrastructures Each file is a tar archive containing gz files, each with one json per line. Each json is compliant to the schema available at http://doi.org/10.5281/zenodo.8238874. The documentation for the model is available at https://graph.openaire.eu/docs/data-model/ Learn more about the OpenAIRE Graph at https://graph.openaire.eu. Discover the graph's content on OpenAIRE EXPLORE and our API for developers."
],
type: "dataset",
publicationDate: "2023-08-08",
publisher: "Zenodo",
id: [
{
scheme: "Digital Object Identifier",
value: "10.5281/zenodo.8217359"
}
],
// for brevity, the rest of the fields are omitted
}
```

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# Graph API <span class="theme-doc-version-badge badge badge--secondary">beta</span>
The OpenAIRE Graph API provides a comprehensive way for developers to explore the [OpenAIRE Graph](https://graph.openaire.eu/), a vast interconnected dataset that aggregates metadata from a wide range of scholarly resources.
The Graph API offers endpoints for accessing and querying this interconnected dataset, enabling users to retrieve detailed information on research products, data sources, organizations, and projects.
## Base URL and Swagger documentation
The base URL of the Graph API is:
```
https://api-beta.openaire.eu/graph/
```
You can access the API Swagger documentation in [https://api-beta.openaire.eu/graph/swagger-ui/index.html#/](https://api-beta.openaire.eu/graph/swagger-ui/index.html#/).
## Notes
Please note that the Graph API:
- is intended for data discovery and exploration, hence you are now allowed to navigate the full result set: you are limited to the first 10,000 results of a search query. If you are interested to access the whole graph, we encourage you to download the [OpenAIRE full Graph dataset](../../downloads/full-graph.md).
- adhers to the [terms of use](../terms.md) of the OpenAIRE public APIs - certain (rate limit) restrictions apply.
## Learn more
Please use the following links to learn more about the Graph API:
- [Getting a single entity](./getting-a-single-entity.md) - Retrieve detailed information on a single entity.
- [Searching entities](./searching-entities/searching-entities.md) - Retrieve a list of entities based on specific search criteria.
- [Filtering results](./searching-entities/filtering-search-results.md) - Filter search results based on specific criteria.
- [Sorting results](./searching-entities/sorting-and-paging.md#sorting) - Sort search results based on specific criteria.
- [Paging](./searching-entities/sorting-and-paging.md#paging) - Retrieve a subset of search results.
- [Making requests](./making-requests.md) - Learn how to make requests with different programming languages.

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# Making requests
This guide provides examples of how to make requests to the OpenAIRE Graph API using different programming languages.
## Using `curl`
```bash
curl -X GET "https://api-beta.openaire.eu/graph/researchProducts?search=OpenAIRE%20Graph&type=publication&page=1&pageSize=10&sortBy=relevance%20DESC" -H "accept: application/json"
```
## Using Python (with `requests` library)
```python
import requests
url = "https://api-beta.openaire.eu/graph/researchProducts"
params = {
"search": "OpenAIRE Graph",
"type": "publication",
"page": 1,
"pageSize": 10,
"sortBy": "relevance DESC"
}
headers = {
"accept": "application/json"
}
response = requests.get(url, headers=headers, params=params)
if response.status_code == 200:
data = response.json()
print(data)
else:
print(f"Failed to retrieve data: {response.status_code}")
```
:::note
Note that when using `curl` you should ensure that the URL is properly encoded, especially when using special characters or spaces in the query parameters. On the contrary, the `requests` library in Python takes care of URL encoding automatically.
:::

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# Filtering search results
Filters can be used to narrow down the search results based on specific criteria.
Filters are provided as query parameters in the request URL (see [here](./searching-entities.md) for the available search entpoints).
Multiple filters can be provided in a single request; they should be formatted as follows:
`param1=value1&param2=value2&...&paramN=valueN`.
:::note
Filters are combined using the logical `AND` operator.
If a filter is provided multiple times, its values are combined using the logical `OR` operator.
For more information on how to use logical operators when searching and filtering, see [Using logical operators](#using-logical-operators).
:::
Examples:
- Get all research products that contain the word `"covid"`, sorted by popularity in descending order:
[https://api-beta.openaire.eu/graph/researchProducts?search=covid&sortBy=popularity DESC](https://api-beta.openaire.eu/graph/researchProducts?search=covid&sortBy=popularity%20DESC)
- Get all publications that are published after `2019-01-01`:
[https://api-beta.openaire.eu/graph/researchProducts?type=publication&fromPublicationDate=2019-01-01](https://api-beta.openaire.eu/graph/researchProducts?type=publication&fromPublicationDate=2019-01-01)
- Get the organization with the ROR id `https://ror.org/0576by029`:
[https://api-beta.openaire.eu/graph/organizations?pid=https://ror.org/0576by029](https://api-beta.openaire.eu/graph/organizations?pid=https://ror.org/0576by029)
## Available parameters
This section provides an overview of the available parameters for each entity type.
### Research products
The following query parameters are available for research products:
| **Parameter** | **Description** |
|-------------------------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| **search** | Search in the content of the research product. |
| **mainTitle** | Search in the research product's main title. |
| **description** | Search in the research product's description. |
| **id** | The OpenAIRE id of the research product. |
| **pid** | The persistent identifier of the research product. |
| **originalId** | The identifier of the record at the original sources. |
| **type** | The type of the research product. One of `publication`, `dataset`, `software`, or `other` |
| **fromPublicationDate** | Gets the research products whose publication date is greater than or equal to the given date. A date formatted as `ΥΥΥΥ` or `YYYY-MM-DD` |
| **toPublicationDate** | Gets the research products whose publication date is less than or equal to the given date. A date formatted as `YYYY` or `YYYY-MM-DD` |
| **subjects** | List of subjects associated to the research product. |
| **countryCode** | The country code for the country associated with the research product. |
| **authorFullName** | The full name of the authors involved in producing this research product. |
| **authorOrcid** | The ORCiD of the authors involved in producing this research product. |
| **publisher** | The name of the entity that holds, archives, publishes prints, distributes, releases, issues, or produces the resource. |
| **bestOpenAccessRightLabel** | The best open access rights among the research product's instances. One of `OPEN SOURCE`, `OPEN`, `EMBARGO`, `RESTRICTED`, `CLOSED`, `UNKNOWN` |
| **influenceClass** | Citation-based indicator that reflects the overall impact of a research product. Please, choose a class among `C1`, `C2`, `C3`, `C4`, or `C5` for top 0.01%, top 0.1%, top 1%, top 10%, and average in terms of influence respectively. |
| **impulseClass** | Citation-based indicator that reflects the initial momentum of a research product directly after its publication. Please, choose a class among `C1`, `C2`, `C3`, `C4`, or `C5` for top 0.01%, top 0.1%, top 1%, top 10%, and average in terms of impulse respectively |
| **popularityClass** | Citation-based indicator that reflects current impact or attention of a research product. Please, choose a class among `C1`, `C2`, `C3`, `C4`, or `C5` for top 0.01%, top 0.1%, top 1%, top 10%, and average in terms of popularity respectively. |
| **citationCountClass** | Citation-based indicator that reflects the overall impact of a research product by summing all its citations. Please, choose a class among `C1`, `C2`, `C3`, `C4`, or `C5` for top 0.01%, top 0.1%, top 1%, top 10%, and average in terms of citation count respectively. |
| **instanceType** `[Only for publications]` | Retrieve publications of the given instance type. Check [here](http://api.openaire.eu/vocabularies/dnet:publication_resource) for all possible instance type values. |
| **sdg** `[Only for publications]` | Retrieves publications classified with the respective Sustainable Development Goal number. Integer in the range [1, 17] |
| **fos** `[Only for publications]` | Retrieves publications classified with a given Field of Science (FOS). A FOS classification identifier (see [here](https://explore.openaire.eu/assets/common-assets/vocabulary/fos.json) for details). |
| **isPeerReviewed** `[Only for publications]` | Indicates whether the publications are peerReviewed or not. (Boolean) |
| **isInDiamondJournal** `[Only for publications]` | Indicates whether the publication was published in a diamond journal or not. (Boolean) |
| **isPubliclyFunded** `[Only for publications]` | Indicates whether the publication was publicly funded or not. (Boolean) |
| **isGreen** `[Only for publications]` | Indicates whether the publication was published following the green open access model. (Boolean) |
| **openAccessColor** `[Only for publications]` | Specifies the Open Access color of the publication. One of `bronze`, `gold`, or `hybrid` |
| **relOrganizationId** | Retrieve research products connected to the organization (with OpenAIRE id). |
| **relCommunityId** | Retrieve research products connected to the community (with OpenAIRE id). |
| **relProjectId** | Retrieve research products connected to the project (with OpenAIRE id). |
| **relProjectCode** | Retrieve research products connected to the project with code. |
| **hasProjectRel** | Retrieve research products that are connected to a project. (Boolean) |
| **relProjectFundingShortName**| Retrieve research products connected to a project that has a funder with the given short name. |
| **relProjectFundingStreamId** | Retrieve research products connected to a project that has the given funding identifier. |
| **relHostingDataSourceId** | Retrieve research products hosted by the data source (with OpenAIRE id). |
| **relCollectedFromDatasourceId**| Retrieve research products collected from the data source (with OpenAIRE id). |
| **debugQuery** | Retrieve debug information for the search query. (Boolean) |
| **page** | Page number of the results. (Integer) |
| **pageSize** | Number of results per page. Integer in the range [1, 100] |
| **cursor** | Cursor-based pagination. Initial value: `cursor=*` |
| **sortBy** | The field to set the sorting order of the results. Should be provided in the format `fieldname sortDirection`, where the `sortDirection` can be either `ASC` for ascending order or `DESC` for descending order and `fielaname` is one of `relevance`, `publicationDate`, `dateOfCollection`, `influence`, `popularity`, `citationCount`, `impulse`. Multiple sorting parameters should be comma-separated. |
### Organizations
The following query parameters are available for organizations:
| **Parameter** | **Description** |
|----------------------------|--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
|**search** | Search in the content of the organization. |
|**legalName** | The legal name of the organization. |
|**legalShortName** | The legal name of the organization in short form. |
|**id** | The OpenAIRE id of the organization. |
|**pid** | The persistent identifier of the organization. |
|**countryCode** | The country code of the organization. |
|**relCommunityId** | Retrieve organizations connected to the community (with OpenAIRE id). |
|**relCollectedFromDatasourceId**| Retrieve organizations collected from the data source (with OpenAIRE id). |
|**debugQuery** | Retrieve debug information for the search query. |
|**page** | Page number of the results. |
|**pageSize** | Number of results per page. |
| **cursor** | Cursor-based pagination. Initial value: `cursor=*` |
|**sortBy** | The field to set the sorting order of the results. Should be provided in the format `fieldname sortDirection`, where the `sortDirection` can be either `ASC` for ascending order or `DESC` for descending order - organizations can only be sorted by `relevance`. |
### Data sources
The following query parameters are available for data sources:
| **Parameter** | **Description** |
|----------------------------|-----------------------------------------------------------------------------------------------------------------------------------------------------------------------|
|**search** | Search in the content of the data source. |
|**officialName** |The official name of the data source. |
|**englishName** |The English name of the data source. |
|**legalShortName** |The legal name of the organization in short form. |
|**id** |The OpenAIRE id of the data source. |
|**pid** |The persistent identifier of the data source. |
|**subjects** |List of subjects associated to the datasource. |
|**dataSourceTypeName** |The data source type; see all possible values <a href='https://api.openaire.eu/vocabularies/dnet:datasource_typologies' target='_blank'>here</a> . |
|**contentTypes** |Types of content in the data source, as defined by OpenDOAR. |
|**relOrganizationId** |Retrieve data sources connected to the organization (with OpenAIRE id). |
|**relCommunityId** |Retrieve data sources connected to the community (with OpenAIRE id). |
|**relCollectedFromDatasourceId**|Retrieve data sources collected from the data source (with OpenAIRE id). |
|**debugQuery** |Retrieve debug information for the search query. |
|**page** |Page number of the results. |
|**pageSize** |Number of results per page. |
| **cursor** | Cursor-based pagination. Initial value: `cursor=*` |
|**sortBy** |The field to set the sorting order of the results. Should be provided in the format `fieldname sortDirection`, where the `sortDirection` can be either `ASC` for ascending order or `DESC` for descending order - data sources can only be sorted by `relevance`.|
### Projects
The following query parameters are available for projects:
| **Parameter** | **Description** |
|----------------------------|---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
|**search** | Search in the content of the projects. |
|**title** | Search in the project's title. |
|**keywords** | The project's keywords. |
|**id** | The OpenAIRE id of the project. |
|**code** | The grant agreement (GA) code of the project. |
|**acronym** | Project's acronym. |
|**callIdentifier** | The identifier of the research call. |
|**fundingShortName** | The short name of the funder. |
|**fundingStreamId** | The identifier of the funding stream. |
|**fromStartDate** | Gets the projects with start date greater than or equal to the given date. Please provide a date formatted as `YYYY` or `YYYY-MM-DD`. |
|**toStartDate** | Gets the projects with start date less than or equal to the given date. Please provide a date formatted as `YYYY` or `YYYY-MM-DD`. |
|**fromEndDate** | Gets the projects with end date greater than or equal to the given date. Please provide a date formatted as `YYYY` or `YYYY-MM-DD`. |
|**toEndDate** | Gets the projects with end date less than or equal to the given date. Please provide a date formatted as `YYYY` or `YYYY-MM-DD`. |
|**relOrganizationName** | The name or short name of the related organization. |
|**relOrganizationId** | The organization identifier of the related organization. |
|**relCommunityId** | Retrieve projects connected to the community (with OpenAIRE id). |
|**relOrganizationCountryCode** | The country code of the related organizations. |
|**relCollectedFromDatasourceId**| Retrieve projects collected from the data source (with OpenAIRE id). |
|**debugQuery** | Retrieve debug information for the search query. |
|**page** | Page number of the results. |
|**pageSize** | Number of results per page. |
| **cursor** | Cursor-based pagination. Initial value: `cursor=*` |
|**sortBy** | The field to set the sorting order of the results. Should be provided in the format `fieldname sortDirection`, where the `sortDirection` can be either `ASC` for ascending order or `DESC` for descending order and `fielaname` is one of `relevance`, `startDate`, `endDate`. Multiple sorting parameters should be comma-separated. |
## Using logical operators
The API supports the use of logical operators `AND`, `OR`, and `NOT` to refine your search queries.
These operators help you combine or exclude one or more values for a specific filter.
### `AND` operator
Use the `AND` operator to retrieve results that include all specified values. This narrows your search.
Examples:
- Get research products that contain both `"climate"` and `"change"`:
[https://api-beta.openaire.eu/graph/researchProducts?search=climate AND change](https://api-beta.openaire.eu/graph/researchProducts?search=climate%20AND%20change)
- Get research products that are classified with both Fields of Study (FOS) `"03 medical and health sciences"` and `"0502 economics and business"`:
[https://api-beta.openaire.eu/graph/researchProducts?fos="03 medical and health sciences" AND "0502 economics and business"](https://api-beta.openaire.eu/graph/researchProducts?fos=%2203%20medical%20and%20health%20sciences%22%20AND%20%220502%20economics%20and%20business%22)
:::note
Note that when multiple tokens denote a single filter value, you should enclose them in double quotes, as in the FOS example above.
:::
### `OR` operator
Use the `OR` operator to retrieve results that include any of the specified terms. This broadens your search.
The same functionality can be achieved by providing multiple times the same query parameter or using a comma to separate the values.
Examples:
- Get research products with the OpenAIRE ids `doi_dedup___::2b3cb7130c506d1c3a05e9160b2c4108` or `pmid_dedup__::1591ebf0e0698ed4a99455ff2ba4adc0`:
[https://api-beta.openaire.eu/graph/researchProducts?id=r3730f562f9e::539da48b3796663b17e6166bb966e5b1 OR pmid_dedup__::1591ebf0e0698ed4a99455ff2ba4adc0](https://api-beta.openaire.eu/graph/researchProducts?id=r3730f562f9e::539da48b3796663b17e6166bb966e5b1%20OR%20pmid_dedup__::1591ebf0e0698ed4a99455ff2ba4adc0)
- Get projects that are connected to organizations in the US or Greece:
[https://api-beta.openaire.eu/graph/projects?relOrganizationCountryCode=US OR GR](https://api-beta.openaire.eu/graph/projects?relOrganizationCountryCode=US%20OR%20GR)
or by using the same query parameter multiple times: [https://api-beta.openaire.eu/graph/projects?relOrganizationCountryCode=US&relOrganizationCountryCode=GR](https://api-beta.openaire.eu/graph/projects?relOrganizationCountryCode=US&relOrganizationCountryCode=GR)
or just using comma: [https://api-beta.openaire.eu/graph/projects?relOrganizationCountryCode=US,GR](https://api-beta.openaire.eu/graph/projects?relOrganizationCountryCode=US,GR)
### `NOT` operator
Use the `NOT` operator to exclude specific terms from your search results. This refines your search by filtering out unwanted results.
Examples:
- Get research products that contain `"semantic"` but not `"web"`:
[https://api-beta.openaire.eu/graph/researchProducts?search=semantic NOT web](https://api-beta.openaire.eu/graph/researchProducts?search=semantic%20NOT%20web)
- Get all data sources that are not journals:
[https://api-beta.openaire.eu/graph/dataSources?dataSourceTypeName=NOT Journal](https://api-beta.openaire.eu/graph/dataSources?dataSourceTypeName=NOT%20Journal)
:::note
All the above operators can be combined, along with parentheses, and quotes to create more complex queries.
For example, to get research products that contain the phrase "semantic web" but not "ontology" or "linked data":
[https://api-beta.openaire.eu/graph/researchProducts?search="semantic web" AND NOT (ontology OR "linked data")](https://api-beta.openaire.eu/graph/researchProducts?search=%22semantic%20web%22%20AND%20NOT%20(ontology%20OR%20%22linked%20data%22))
:::

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# Searching entities
This is a guide on how to search for specific entities using the OpenAIRE Graph API.
## Endpoints
Currently, the Graph API supports the following entity types:
* Research products - endpoint: [`GET /researchProducts`](https://api-beta.openaire.eu/graph/researchProducts)
* Organizations - endpoint: [`GET /organizations`](https://api-beta.openaire.eu/graph/organizations)
* Data sources - endpoint: [`GET /dataSources`](https://api-beta.openaire.eu/graph/dataSources)
* Projects - endpoint: [`GET /projects`](https://api-beta.openaire.eu/graph/projects)
Each of these endpoints can be used to list all entities of the corresponding type.
Listing such entities can be more useful when using the [filtering](./filtering-search-results.md),
[sorting](./sorting-and-paging.md#sorting), and [paging](./sorting-and-paging.md#paging) capabilities of the Graph API.
## Response
The response of the aforementioned endpoints is an object of the following type:
```json
{
header: {
numFound: 36818386,
maxScore: 1,
queryTime: 21,
page: 1,
pageSize: 10
},
results: [
...
]
}
```
It contains a `header` object with the following fields:
- `numFound`: the total number of entities found
- `maxScore`: the maximum relevance score of the search results
- `queryTime`: the time in milliseconds that the search took
- `page`: the current page of the search results (when using basic pagination)
- `pageSize`: the number of entities per page
- `nextCursor`: the next page cursor (when using cursor-based pagination, see: [paging](./sorting-and-paging.md#paging)
Finally, the `results` field contains an array of entities of the corresponding type (i.e., [Research product](../../../data-model/entities/research-product.md), [Organization](../../../data-model/entities/organization.md), [Data Source](../../../data-model/entities/data-source.md), or [Project](../../../data-model/entities/project.md)).

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# Sorting and paging
The OpenAIRE Graph API allows you to sort and page through the results of your search queries.
This enables you to retrieve the most relevant results and manage large result sets more effectively.
## Sorting
Sorting based on specific fields, helps to retrieve data in the preferred order.
Sorting is achieved using the `sortBy` parameter, which specifies the field and the direction (ascending or descending) for sorting.
* `sortBy`: Defines the field and the sort direction. The format should be `fieldname sortDirection`, where the `sortDirection` can be either `ASC` for ascending order or `DESC` for descending order.
The field names that can be used for sorting are specific to each entity type and can be found in the `sortBy` field values of the [available paremeters](../searching-entities/filtering-search-results.md#available-parameters).
Note that the default sorting is based on the `relevance` score of the search results.
Examples:
- Get research products published after `2020-01-01` and sort them by the publication date in descending order:
[https://api-beta.openaire.eu/graph/researchProducts?fromPublicationDate=2020-01-01&sortBy=publicationDate DESC](https://api-beta.openaire.eu/graph/researchProducts?fromPublicationDate=2020-01-01&sortBy=publicationDate%20DESC)
- Get research products with the keyword `"COVID-19"` and sort them by their (citation-based) popularity:
[https://api-beta.openaire.eu/graph/researchProducts?search=COVID-19&sortBy=popularity DESC](https://api-beta.openaire.eu/graph/researchProducts?search=COVID-19&sortBy=popularity%20DESC)
Note that you can combine multiple sorting conditions by separating them with a comma.
Example:
- Get research products with the keyword `"COVID-19"` and sort them by their publication date in ascending order and then by their popularity in descending order:
[https://api-beta.openaire.eu/graph/researchProducts?search=COVID-19&sortBy=publicationDate ASC,popularity DESC](https://api-beta.openaire.eu/graph/researchProducts?search=COVID-19&sortBy=publicationDate%20ASC,popularity%20DESC)
## Paging
The OpenAIRE Graph API supports basic and cursor-based pagination. In basic pagination, `page` and `pageSize` parameters are used, enabling you to specify which part of the result set to retrieve and how many results per page.
### Offset-based paging
Offset-based paging should be used to retrieve a small dataset only (up to 10000 records).
* `page`: Specifies the page number of the results you want to retrieve. Page numbering starts from 1.
* `pageSize`: Defines the number of results to be returned per page. This helps limit the amount of data returned in a single request, making it easier to process.
Example:
- Get the top 10 most influential research products that contain the phrase "knowledge graphs":
[https://api-beta.openaire.eu/graph/researchProducts?search="knowledge graphs"&page=1&pageSize=10&sortBy=influence DESC](https://api-beta.openaire.eu/graph/researchProducts?search=%22knowledge%20graphs%22&page=1&pageSize=10&sortBy=influence%20DESC)
response:
```json
{
header: {
numFound: 36818386,
maxScore: 1,
queryTime: 21,
page: 1,
pageSize: 10
},
results: [
...
]
}
```
### Cursor-based paging
Cursor should be used when it is required to retrieve a big dataset (more than 10000 records).
* `cursor`: Cursor-based pagination. Initial value: `cursor=*`.
Example:
- [https://api-beta.openaire.eu/graph/researchProducts?search="knowledge graphs"&pageSize=10&cursor=*&sortBy=influence DESC](https://api-beta.openaire.eu/graph/researchProducts?search=%22knowledge%20graphs%22&pageSize=10&cursor=*&sortBy=influence%20DESC)
response:
```json
{
header: {
numFound: 36818386,
maxScore: 1,
queryTime: 21,
pageSize: 10,
nextCursor: "AoI/D2M2NGU1YjVkNTQ4Nzo6NjlmZTBmNjljYzM4YTY1MjI5YjM3ZDRmZmIyMTU1NDAIP4AAAA=="
},
results: [
...
]
}
```
Use `nextCursor` value, to get the next page of results.

10
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# Public APIs
The OpenAIRE Graph data are accessible through various public APIs. More specifically, the following APIs are currently provided:
* [Graph API](./graph-api/graph-api.md) - an API to explore the OpenAIRE Graph
* [Search API](./search-api/search-api.md) - an API to search for research products and projects
* [ScholeXplorer API](https://api.scholexplorer.openaire.eu/swagger-ui/index.html?urls.primaryName=Scholexplorer%20API%20V2.0) - an API offering dataset-publication & dataset-dataset links
* [DSpace & EPrints API](./dspace-eprints-api.md) - an API to offer custom access to metadata for projects funded by a selection of international funders for DSpace and EPrints platforms
* [Broker API](./broker-api.md) - an API to enrich metadata for repositories, publishers, and aggregators
It is also worth mentioning that, between 2015 and 2023 a LOD API was being provided but the respective service has been discontinued. Old LOD datasets can be found on Zenodo [here](https://zenodo.org/records/4587369).

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# Searching for projects
## Endpoints
For research projects: http://api.openaire.eu/search/projects
## Parameters
| Parameter | Option | Description |
| --- | --- | --- |
| page | integer | Page number of the search results. |
| size | integer | Number of results per page. |
| format | json \| xml \| csv \| tsv | The format of the response. The default is xml. |
| model | openaire \| sygma | The data model of the response. Default is openaire. Model sygma is a simplified version of the openaire model. For sygma, only the xml format is available. The relative XML schema is available [here](https://www.openaire.eu/schema/sygma/oaf_sygma_v2.1.xsd). |
| sortBy | `sortBy=field,[ascending\|descending]`; **'field'** is one of: `projectstartdate`, `projectstartyear`, `projectenddate`, `projectendyear`, `projectduration` | The sorting order of the specified field. |
| hasECFunding | true \| false | If hasECFunding is true gets the entities funded by the EC. If hasECFunding is false gets the entities related to projects not funded by the EC. |
| hasWTFunding | true \| false | If hasWTFunding is true gets the entities funded by Wellcome Trust. The results are the same as those obtained with `funder=wt`. If hasWTFunding is false gets the entities related to projects not funded by Wellcome Trust. |
| funder | WT \| EC \| ARC \| ANDS \| NSF \| FCT \| NHMRC | Search for entities by funder. |
| fundingStream | ... | Search for entities by funding stream. |
| FP7scientificArea | ... | Search for FP7 entities by scientific area. |
| keywords | White-space separated list of keywords. | N/A |
| sortBy | `sortBy=field,[ascending\|descending]`; **'field'** is one of: `projectstartdate`, `projectstartyear`, `projectenddate`, `projectendyear`, `projectduration` | The sorting order of the specified field. |
| grantID | Comma separated list of grant identifiers. | Gets the project with the given grant identifier, if any. |
| openairePublicationID | Comma separated list of OpenAIRE identifiers. | Gets the publication with the given openaire identifier, if any. |
| name | White-space separated list of keywords. | Gets the projects whose names contain the given list of keywords. Using double quotes `"` you get an exact match, if any. |
| acronym | N/A | Gets the project with the given acronym, if any. |
| callID | N/A | Search for projects by call identifier. |
| startYear | Year formatted as `YYYY` | Gets the projects that started in the given year. |
| endYear | Year formatted as `YYYY`. | Gets the projects that ended in the given year. |
| participantCountries | Comma separeted list of 2 letter country codes. | Search for projects by participant countries. |
| participantAcronyms | White space separeted list of acronyms of institutions. | Search for projects by participant institutions. |

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# Searching for research products
## Endpoints
For research products: https://api.openaire.eu/search/researchProducts
By specific type:
* publications: https://api.openaire.eu/search/publications
* research data: https://api.openaire.eu/search/datasets
* research software: https://api.openaire.eu/search/software
* other research products: https://api.openaire.eu/search/other
## General parameters
Endpoint: https://api.openaire.eu/search/researchProducts
| Parameter | Option | Description |
| --- | --- | --- |
| page | integer | Page number of the search results. |
| size | integer | Number of results per page. |
| format | json \| xml \| csv \| tsv | The format of the response. The default is xml. |
| model | openaire \| sygma | The data model of the response. Default is openaire. Model sygma is a simplified version of the openaire model. For sygma, only the xml format is available. The relative XML schema is available [here](https://www.openaire.eu/schema/sygma/oaf_sygma_v2.1.xsd). |
| sortBy | `sortBy=field,[ascending\|descending]` <br/>**'field'** can one of: <ul> <li>`dateofcollection`</li><li>`resultstoragedate`</li><li>`resultstoragedate`</li> <li>`resultembargoenddate`</li><li>`resultembargoendyear`</li><li>`resultdateofacceptance`</li> <li>`resultacceptanceyear`</li><li>`influence`</li><li>`popularity`</li> <li>`citationCount`</li><li>`impulse`</li> </ul>Multiple sorting is supported by repeating the `sortBy` parameter. | The sorting order of the specified field. |
| hasECFunding | true \| false | If hasECFunding is true gets the entities funded by the EC. If hasECFunding is false gets the entities related to projects not funded by the EC. |
| hasWTFunding | true \| false | If hasWTFunding is true gets the entities funded by Wellcome Trust. The results are the same as those obtained with `funder=wt`. If hasWTFunding is false gets the entities related to projects not funded by Wellcome Trust. |
| funder | WT \| EC \| ARC \| ANDS \| NSF \| FCT \| NHMRC | Search for entities by funder. |
| fundingStream | ... | Search for entities by funding stream. |
| FP7scientificArea | ... | Search for FP7 entities by scientific area. |
| keywords | White-space separated list of keywords. | This parameter is used to support a keyword search functionality in various fields (e.g., for research products the keywords are used to search in the products title, description, authors, etc). Regarding the semantics, when you provide multiple keywords, all keywords should be present, hence the correct interpretation is `kwd1 AND kw2`. |
| doi | Comma separated list of DOIs. <br/>Alternatively, it is possible to repeat the parameter for each requested doi. | Gets the research products with the given DOIs, if any. |
| orcid | Comma separated list of ORCID iDs of authors. <br/>Alternatively, it is possible to repeat the parameter for each author ORCID iD. | Gets the research products linked to the given ORCID iD of an author, if any. |
| fromDateAccepted | Date formatted as `YYYY-MM-DD` | Gets the research products whose date of acceptance is greater than or equal the given date. |
| toDateAccepted | Date formatted as `YYYY-MM-DD` | Gets the research products whose date of acceptance is less than or equal the given date. |
| title | White-space separated list of keywords. | Gets the research products whose titles contain the given list of keywords. |
| author | White-space separated list of names and/or surnames. | Search for research products by authors. |
| OA | true \| false | If OA is true gets Open Access research products. If OA is false gets the non Open Access research products |
| projectID | The given grant identifier of the project | Search for research products of the project with the specified projectID |
| country | 2 letter country code | Search for research products associated to the country code |
| influence <br/> | Accepted values: <br/>`C1` for top 0.01% in terms of influence <br/>`C2` for top 0.1% in terms of influence <br/>`C3` for top 1% in terms of influence <br/>`C4` for top 10% in terms of influence <br/>`C5` for average/low in terms of influence <br/> <br/>Comma separated list of values or repeat of the parameter for each value will form a query with OR semantics, eg. `?influence=C1&influence=C2` | Search for research products based on their influence. |
| popularity <br/> | Accepted values: <br/>`C1` for top 0.01% in terms of popularity <br/>`C2` for top 0.1% in terms of popularity <br/>`C3` for top 1% in terms of popularity <br/>`C4` for top 10% in terms of popularity <br/>`C5` for average/low in terms of popularity <br/> <br/>Comma separated list of values or repeat of the parameter for each value will form a query with OR semantics, eg. `?popularity=C1&popularity=C2` | Search for research products based on their popularity. |
| impulse <br/> | Accepted values: <br/>`C1` for top 0.01% in terms of impulse <br/>`C2` for top 0.1% in terms of impulse <br/>`C3` for top 1% in terms of impulse <br/>`C4` for top 10% in terms of impulse <br/>`C5` for average/low in terms of impulse <br/> <br/>Comma separated list of values or repeat of the parameter for each value will form a query with OR semantics, eg. `?impulse=C1&impulse=C2` | Search for research products based on their impulse. |
| citationCount <br/> | Accepted values: <br/>`C1` for top 0.01% in terms of citation count <br/>`C2` for top 0.1% in terms of citation count <br/>`C3` for top 1% in terms of citation count <br/>`C4` for top 10% in terms of citation count <br/>`C5` for average/low in terms of citation count <br/> <br/>Comma separated list of values or repeat of the parameter for each value will form a query with OR semantics, eg. `?citationCount=C1&citationCount=C2` | Search for research products based on their number of citations. |
| openaireProviderID | Comma separated list of identifiers. | Search for research products by openaire data provider identifier. <br/>Alternatively, it is possible to repeat the parameter for each provider id. In both cases, provider identifiers will form a query with OR semantics. |
| openaireProjectID | Comma separated list of identifiers. <br/>Alternatively, it is possible to repeat the parameter for each provider id. In both cases, provider identifiers will form a query with OR semantics. | Search for research products by openaire project identifier. Alternatively, it is possible to repeat the parameter for each provider id. In both cases, provider identifiers will form a query with OR semantics. |
| hasProject | true \| false | If hasProject is true gets the research products that have a link to a project. If hasProject is false gets the publications with no links to projects. |
| FP7ProjectID | ... | Search for research products associated to a FP7 project with the given grant number. It is equivalent to a query by `funder=FP7&projectID={grantID}` |
## Parameters for publications
Endpoint: https://api.openaire.eu/search/publications
You can use all the [general research products parameters](#general-parameters) as well as those in the following table.
| Parameter | Option | Description |
| --- | --- | --- |
| instancetype | Comma separated list of publication types. Check [here](http://api.openaire.eu/vocabularies/dnet:publication_resource) to see the possible values | Gets the publication of the given type, if any. |
| originalId | Comma separated list of original identifiers as we get them from the data source. <br/>Alternatively, it is possible to repeat the parameter for each requested identifier. | Gets the publication with the given openaire identifier, if any. |
| sdg | The number of the Sustainable Development Goals `[1-17]`. <br/>Check [here](https://sdgs.un.org/goals) to see the Sustainable Developemnt Goals. | Gets the publications that are classified with the respective Sustainable Development Goal number. |
| fos | The Field of Science classification value. <br/>Check [here](/resources/athenarc_fos_hierarchy.json) to see the Field of Science classification values | Gets the publications that are classified with the respective Field of Science classification value. |
| openairePublicationID | Comma separated list of OpenAIRE identifiers. <br/>Alternatively, it is possible to repeat the parameter for each requested identifier. | Gets the publication with the given openaire identifier, if any. |
| peerReviewed | Accepted values: <br/>true \| false | Specify if the publications are peerReviewed or not. |
| diamondJournal | Accepted values: <br/>true \| false | Specify if the publications are published in a diamond journal or not. |
| publiclyFunded | Accepted values: <br/>true \| false | Specify if the publications are publicly funded or not. |
| green | Accepted values: <br/>true \| false | Specify if the publications are green open access or not. |
| openAccessColor | Accepted values: <br/>`gold`\| `bronze`\| `hybrid` <br/>Comma separated list of values or repeat of the parameter for each value will form a query with OR semantics, eg. `?openAccessColor=gold&openAccessColor=hybrid` | Specify the open access color of a publication. |
## Parameters for research data
Endpoint: https://api.openaire.eu/search/datasets
You can use all the [general research products parameters](#general-parameters) as well as those in the following table.
| Parameter | Option | Description |
| --- | --- | --- |
| openaireDatasetID | Comma separated list of OpenAIRE identifiers. <br/>Alternatively, it is possible to repeat the parameter for each requested identifier. | Gets the research data with the given openaire identifier, if any. |
## Parameters for research software
Endpoint: https://api.openaire.eu/search/software
You can use all the [general research products parameters](#general-parameters) as well as those in the following table.
| Parameter | Option | Description |
| --- | --- | --- |
| openaireSoftwareID | Comma separated list of OpenAIRE identifiers. <br/>Alternatively, it is possible to repeat the parameter for each requested identifier. | Gets the research software with the given openaire identifier, if any. |
## Parameters for other research products
Endpoint: https://api.openaire.eu/search/other
You can use all the [general research products parameters](#general-parameters) as well as those in the following table.
| Parameter | Option | Description |
| --- | --- | --- |
| openaireOtherID | Comma separated list of OpenAIRE identifiers. <br/>Alternatively, it is possible to repeat the parameter for each requested identifier. | Gets the other research products with the given openaire identifier, if any. |

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# Response metadata format
In this page, we elaborate on the metadata response format, as well as response headers and errors.
## Main response
The OpenAIRE Search API supports the following types of response formats:
* XML
* JSON
* CSV
* TSV
In the next paragraphs, we elaborate on the respective metadata formats.
### XML/JSON
The default format of delivered records is oaf (OpenAIRE Format - current version 1.0):
* XML schema: https://www.openaire.eu/schema/1.0/oaf-1.0.xsd
* Documentation: https://www.openaire.eu/schema/1.0/doc/oaf-1.0.html
For the list of changes [click here](https://www.openaire.eu/openaire-xml-schema-change-announcement).
Note that latest versions of the XML schema and documentation are also available at the following permanent links:
* XML schema: https://www.openaire.eu/schema/latest/oaf.xsd
* Documentation: https://www.openaire.eu/schema/latest/doc/oaf.html
Older versions:
* oaf v0.3 [XML schema](https://www.openaire.eu/schema/0.3/oaf-0.3.xsd) and [documentation](https://www.openaire.eu/schema/0.3/doc/oaf-0.3.html)
* oaf v0.2 [XML schema](https://www.openaire.eu/schema/0.2/oaf-0.2.xsd) and [documentation](https://www.openaire.eu/schema/0.2/doc/oaf-0.2.html)
* oaf v0.1 [XML schema](https://www.openaire.eu/schema/0.1/oaf-0.1.xsd) and [documentation](https://www.openaire.eu/schema/0.1/doc/oaf-0.1.html)
### CSV/TSV
The API returns in comma-separated files (CSV) or tab-separated files (TSV) the following fields:
* Title
* AUthors
* Publicatioy year
* DOI
* Download from
* Publication type
* Journal
* Funder
* Project name (GA Number)
* Access
## Headers
| Name | Description |
| --- | --- |
| x-ratelimit-limit | The maximum number of requests allowed for the client in one time window. |
| x-ratelimit-used | The number of requests already made by the client in the current time window. |
The OpenAIRE APIs use a sliding time window of one hour.
## Errors
### General
404 - Not found
```json
{
"error": "Not found",
"description": "Invald request path."
}
```
429 - Rate limit abuse
```json
{
"error": "Too many requests",
"description": "Request rate exceeded. Slow down."
}
```
### Only for authenticated requests
400 - Missing grant type
```json
{
"error": "invalid_request",
"error_description": "Missing grant type"
}
```
400 - Wrong grant type
```json
{
"error": "unsupported_grant_type",
"error_description": "Unsupported grant type: ..."
}
```
400 - Missing Refresh Token
```json
{
"status" : "error",
"code" : "400",
"message" : "Bad Request",
"description" : "Missing refreshToken parameter"
}
```
401 - Missing username or/and password
```json
{
"error": "unauthorized",
"error_description": "Client id must not be empty!"
}
```
401 - Wrong username or/and password
```json
{
"error": "unauthorized",
"error_description": "Bad credentials"
}
```
401 - Invalid Refresh Token (for authenticated requests)
```json
{
"status" : "error",
"code" : "401",
"message" : "Unauthorised",
"description" : "Invalid refreshToken token"
}
```
401 - Invalid client assertion
```json
{
"error":"invalid_client",
"error_description":"Bad client credentials"
}
```
401 - Client assertion for missing service
```json
{
"error":"invalid_client",
"error_description":"Could not find client {SERVICE_ID}"
}
```
401 - Expired signed jwt
```json
{
"error":"unauthorized",
"error_description":"Assertion Token in expired: {EXPIRATION_TIME}"
}
```
403 - Invalid Access Token
```json
{
"error": "Token invalid",
"description": "Authorization header value invalid."
}
```

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# Search API
The Search API allows developers to access metadata records of the OpenAIRE Graph by performing queries over research products (i.e., publications, data, software, other research products), and projects.
The API is intended for metadata discovery and exploration only, hence it does not provide access to the whole information space: the number of total results returned by one query is limited to 10,000.
For accessing the whole graph, developers are encouraged to use the [OpenAIRE full Graph dataset](../../downloads/full-graph).

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# APIs specification changelog
| Date | Description |
| --- | --- |
| 2024-01-09T11:14:10.524604Z | New parameters for publications. Now you can specifυ if they are peer reviewed, in diamond journal, publicly funded, green and specify their OA colour. |
| 2023-11-30T11:39:10.159187Z | Added impact factor parameters. Now you can sort results and query by impact, influence, impulse and citation count. |
| 2023-11-29T12:26:17.660379Z | New registration and token process available at https://develop.openaire.eu. Updated documentation |
| 2023-05-25T09:16:19.903365Z | new instancetype parameter added |
| 2022-09-29T07:03:32.109909Z | updated URLs to the broker swagger UI |
| 2022-09-28T20:35:13.116653Z | updated URLs to the broker swagger UI |
| 2022-07-28T12:02:06.271154Z | Updated list of funders supported by the API for bulk access to projects: EC Horizon Europe also included |
| 2022-05-11T10:01:33.969973Z | New end point for researchProducts in selective access! FOS and SDG classifications available for publication requests |
| 2022-03-29T15:03:29.583536Z | Graph dataset: add new Scholix version 4 |
| 2021-11-12T12:04:52.900385Z | originalId parameter added |
| 2021-10-18T15:31:18.446582Z | OAI-PMH publisher completely dismissed as announced in January 2021 |
| 2021-10-12T07:46:48.032978Z | orcid parameter added in selective access |
| 2021-04-08T10:28:02.371361Z | Authenticated requests to our APIs are now enabled. |
| 2021-02-26T16:28:15.364435Z | NEWS: new dataset available with research products with project funding information |
| 2021-02-17T07:39:46.051129Z | WIP: broker API documentation |
| 2021-02-11T09:06:41.608115Z | Broker API documentation |
| 2021-02-10T10:17:39.504429Z | Authentication documentation added + broker card + broker dummy page |
| 2021-02-01T08:55:35.496938Z | OAI-PMH shutdown announced for the end of April 2021 |
| 2021-01-15T18:56:04.748404Z | Updated documentation on OpenAIRE Research Graph Datasets |
| 2021-01-15T16:57:08.569766Z | Announcing the shutdown of the OAI-PMH publisher |
| 2019-01-25T15:36:27.264313Z | Added new parameter country for research products |
| 2018-10-17T10:39:56.570815Z | Software and Other research products are available via HTTP API. Documentation has been updated. |
| 2018-04-09T09:20:24.763966Z | Added section on terms of services and SLA in the specific API pages |
| 2018-04-09T08:26:18.897089Z | Added section for terms of use and SLA in the home page |
| 2018-03-21T15:31:13.490821Z | dded page with list of changes generated from the svn log |
| 2018-03-21T14:58:14.569096Z | Added APi rate limits |
| 2018-03-21T14:46:32.362617Z | ignore intellij settings |
| 2018-02-01T14:44:00.743257Z | Latest schema version is 1.0 |
| 2018-01-30T10:29:03.037760Z | removed authorOpenaireId parameter + change the message to say the schema is already changed |
| 2018-01-26T13:09:17.887663Z | Removed openaireAuthorID from API documentation |
| 2018-01-11T14:41:29.910148Z | Rephrase LOD to Linked Open Data |
| 2018-01-11T13:56:40.051318Z | add LOD box in overview.html |
| 2018-01-11T13:48:19.812005Z | Adding warning for schema change |
| 2017-10-23T14:21:15.794995Z | intellij file |
| 2017-10-09T10:43:56.532687Z | Added HTML files for api documentation based on uikit |
| 2017-10-06T12:08:16.603152Z | deleting old API documentation: new will be committed soon by Katerina |
| 2017-10-06T12:04:55.560134Z | copied from dnet40 |
| 2017-05-26T11:44:59.926816Z | removed warning for fundingStream queries |
| 2017-05-25T12:36:43.800409Z | warning and location of the api in the prod infra |
| 2017-03-29T13:58:34.013071Z | reformatted xml and new generated HTML |
| 2017-03-29T13:57:23.196971Z | changed pubdate |
| 2017-03-29T13:46:08.349593Z | added link to the OpenAIRE helpdesk |
| 2017-03-29T13:39:44.386894Z | fixed param hasWTFunding (instead of hasUKFunding) + list of supported funders |
| 2017-03-29T13:37:43.381141Z | param name is dateOfAcceptance not of collection |
| 2017-02-22T09:31:34.767373Z | #2630: informing that incremental harvesting is not supported and updated list of interesting OAI sets |
| 2016-01-18T10:38:57.125792Z | commented warning section |
| 2015-09-15T09:04:00.819955Z | added this week in the warning week |
| 2015-09-15T09:02:37.458839Z | updated supported funders and removed section about the TSV as it is only to be used by NOADs |
| 2015-09-15T08:56:37.943151Z | removed organizations OAI set in the examples. Added FP7Publications. |
| 2015-09-15T08:54:41.579385Z | Updated links to the guidelines |
| 2015-09-15T08:53:06.677011Z | OAI-PMH discards duplicates now |
| 2015-08-26T08:51:32.795385Z | added schema 0.3 as the latest schema |
| 2015-05-18T12:10:24.329058Z | csvn and tsv formats available for search api |
| 2015-03-20T10:54:31.069584Z | fixed tsv URL |
| 2015-03-20T10:49:46.639336Z | updated date |
| 2015-03-20T10:49:11.327980Z | added documentation for the projects2tsv endpoint |
| 2015-03-19T11:18:36.226626Z | minor changes to a couple of sentences |
| 2015-03-13T17:35:01.980176Z | updated the generated html |
| 2015-03-13T17:33:41.882951Z | added list of avaialble funding streams and those that are coming soon |
| 2015-03-13T17:33:02.339565Z | openaire compliance of OAI-PMH |
| 2015-02-04T14:16:56.528188Z | #1062: OAI-PMH and HTTP numbers are not the same becuase of duplicates |
| 2014-12-03T15:17:27.207961Z | #1031: title of eprints/dspace export |
| 2014-11-13T16:11:13.633046Z | Updated date and generated new html |
| 2014-11-13T16:08:12.045544Z | Fixed documentation about datasets |
| 2014-11-11T18:43:18.738678Z | Fixed documentation for publications |
| 2014-11-11T17:09:19.351093Z | added sortby parameter |
| 2014-09-17T09:05:38.726757Z | created tag folder for release |
| 2014-08-04T10:59:48.089720Z | Updated pubdate |
| 2014-08-04T10:58:22.814919Z | Overview cleanup |
| 2014-08-04T10:50:54.515588Z | added links to the latest available schema and documentation |
| 2014-07-24T14:09:49.733958Z | #690: HTTP API documentation for project and other updates. |
| 2014-06-06T08:41:45.731338Z | #550: making it clear we are delivering metadata only. Clenaup. |
| 2014-05-14T16:38:30.702554Z | updated date |
| 2014-05-14T16:35:05.787718Z | re-added OAI set for projects |
| 2014-04-30T10:42:18.355154Z | updated oxygen project with the correct tree structure |
| 2014-04-30T10:41:14.539090Z | Added and commented property to generate output in chunks |
| 2014-04-30T10:40:30.012256Z | mvn generates output with no chunks in a single file: api-doc.html |
| 2014-04-30T10:39:37.875730Z | Main docbook file renamed from book.xml to api-doc.xml |
| 2014-04-30T10:34:16.576722Z | updated OAI-PMH sets: now delivering only research products and no other entities. |
| 2014-04-15T09:53:22.158487Z | copied dnet-api-http-doc to new dnet40 codebase |
| 2014-04-10T09:55:41.690052Z | ignore |
| 2014-04-10T09:53:59.192401Z | removed target/*classes from svn |
| 2014-04-09T10:46:05.757155Z | mavenized project. Generates html running mvn docbkx:generate-html. results are then in target/docbkx |
| 2014-04-09T09:18:26.268418Z | added links to xsd and xsd doc in the overview chapter |
| 2014-04-08T12:55:01.169556Z | ticket #300: updated doc for APIs |
| 2014-03-10T18:13:38.784171Z | not a maven project |
| 2014-03-10T18:13:18.180379Z | basic structure for API doc |
| 2014-03-10T13:50:02.957489Z | added files as generated by the archetype docbkx-quickstart-archetype v2.0.15 |
| 2014-03-10T13:45:30.505315Z | created module for HTTP API docbook |

17
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# Terms of use
## Authentication & limits
The OpenAIRE APIs are free-to-use by any third-party service and can be accessed over HTTPS both by authenticated and unauthenticated requests. The rate limit for the former type of requests is up to 7200 requests per hour, while the latter is up to 60 requests per hour.
To make an authenticated request, you must first [register](https://services.openaire.eu/uoa-user-management/register.jsp). Then, you can go to the [personal access token page](https://develop.openaire.eu/user-info?errorCode=1&redirectUrl=%2Fpersonal-token) in your account, copy your token and use it for up to one hour, [find out more](./authentication.md).
Our OAuth 2.0 implementation, conforms to the OpenID Connect specification, and is [OpenID Certified](https://openid.net/certification/). OpenID Connect is a simple identity layer on top of the OAuth 2.0 protocol. For more information about OAuth2.0 please visit the [OAuth2.0 official site](https://oauth.net/2/). For more information about OpenID Connect please visit the [OpenID Connect official site](https://openid.net/connect/). Also, check [here](http://www.openaire.eu/privacy-policy) for more information on our Privacy Policy.
## Quality of service
OpenAIRE API services are running in production 24/7 within the OpenAIRE infrastructure premises deployed at the data center facilities of the Interdisciplinary Centre for Mathematical and Computational Modelling (ICM).
## License
OpenAIRE Graph license is CC-BY: the records returned by the service can be freely re-used by commercial and non-commercial partners under CC-BY license, hence as long as OpenAIRE is acknowledged as a data source.

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sidebar_position: 12 sidebar_position: 12
--- ---
# Changelog # Versions & changelog
<span className="todo">TODO</span>
## Versioning
Our versioning policy follows the [Semantic Versioning specification](https://semver.org/).
In our case, given a version `MAJOR.MINOR.PATCH`, we increment the:
* `MAJOR` version when the data model of the Graph changes
* `MINOR` version when the pipeline (e.g., different deduplication method, different implementation for an enrichment process) or major data sources change
* `PATCH` version when the graph data are updated
## Changelog
This section documents all notable changes for each graph version.
---
### v9.0.0
_Start Date: 2024-10-03 &bull; Release Date: 2024-10-23 &bull; Dataset release: **no**_
#### Added
- ~2.5% increase (+6.7Mi) in the number of research products
- ~6.35% increase (+11.9Mi) in the number of affiliations
- ~7.3% increase (+311K) in the number of funded research products
- Import of SDG classifications without a DOI
- Introduced plugins for collecting research results from the OSF preprints server and the UKRI registry
#### Changed
- Updated Crossref publications to include contents until Aug 2024 and updated mapping so that
- records with a relationship "is-review-of" are mapped as publication of type "Review".
- force the hostedby of Crossref records with DOI prefix `10.3410` and `10.12703` to the H1 Connect data source.
- Updated ORCID contents until Sept 2024
- Updated Datacite contents until Sept 2024
- Improvements in the comparators used in the organization deduplication.
- Changed the selection criteria for the pivot record of a group so that by best pid type becomes the first criteria, as consequence pivots will converge to records having DOI pid.
- Community tags added to all the entity types.
### v8.0.1
_Start Date: 2024-08-09 &bull; Release Date: 2024-09-12 &bull; Dataset release: **no**_
#### Added
- Introduced mapping of affiliations from publisher websites
#### Changed
- Updated Crossref publications to include contents until June 2024
- Updated ORCID contents until July 2024
- Updated Datacite contents until July 2024
- Include only FoS L1..L2 in the record serialization
### v8.0.0
_Start Date: 2024-07-03 &bull; Release Date: 2024-07-15 &bull; Dataset release: **yes**_
#### Added
- General increase of the scientific products with ORCID identified authors +0.43% (+145K)
#### Changed
- Improved matching of organizations in the deduplication algorithm, leading to less false positives
- Updated Crossref publications to include contents until May 2024
- Updated ORCID contents until June 2024
- Updated Datacite contents until June 2024
- Updated serialization of the data model as follows
- The serialization of the property names is changed to camelCase
- The serialization of the impact indicators was updated renaming the element `bipIndicators` as
`citationImpact`, which includes the following:
- `citationCount`, `influence`, `popularity`, `impulse`, all of them typed as Double
- `citationClass`, `influenceClass`, `impulseClass`, `popularityClass`, all of them typed as String
- The element `datasettype` was renamed to `type`
### v7.2.0
_Start Date: 2024-05-15 &bull; Release Date: 2024-06-20 &bull; Dataset release: **no**_
#### Added
- Introduced new Field of Science classifications for publications, reaching a total of ~77.2Mi publications classified
- General increase of the affiliations +20% (from 162Mi to 195Mi)
- General increase of the scientific products with ORCID identified authors +10% (from 3.09Mi to 3.39Mi)
#### Changed
- Revised deduplication configuration to better exploit resource types
- The DOIBoost dataset was superseded by the direct aggregation of its datasources: Crossref, Unpaywall, Microsoft
Academic Graph, ORCID. See the [aggregation of the non compatible sources](category/non-compatible-sources) section
to know more
details
- Relaxed Crossref publication inclusion criteria, now accepting records without author information, leading to a
+15% increase (from 127Mi to 146Mi records). Included contents until April 2024
- Updated ORCID contents until April 2024
- Updated Datacite contents until April 2024
### v7.1.3
_Start Date: 2024-04-10 &bull; Release Date: 2024-04-22 &bull; Dataset release: **no**_
#### Added
- Introduced new Field of Science classifications, reaching a total of ~73Mi publications classified
- General increase of the funded scientific outputs, thanks to the full-text mining scanning new OpenAccess publications, some examples:
- European Commission - EC +7% (from 1.52Mi to 1.62Mi)
- Irish Research Council - IRC +7% (from 12.7K to 13.5K)
- French National Research Agency - ANR +5.8% (from 91.5K to 96.8K)
- National Institute of Health - NIH +5% (from 594K to 626K)
- UK Research and Innovation - UKRI +3.7% (from 434K to 450K)
- General increase of the scientific products with author affiliation information +2% (from 83.12Mi to 84.88Mi)
#### Changed
- Updated Crossref publications to include contents until March 2023
- Updated Datacite contents until March 2024
- Updated ORCID contents until March 2024
### v7.1.2
_Start Date: 2024-03-15 &bull; Release Date: 2024-03-27 &bull; Dataset release: **no**_
#### Added
- General increase of the funded scientific outputs, thanks to the full-text mining scanning new OpenAccess publications
#### Changed
- Updated Crossref publications to include contents until February 2023
- Updated Datacite contents until February 2024
- Updated ORCID contents until February 2024
### v7.1.1
_Start Date: 2024-02-23 &bull; Release Date: 2024-03-06 &bull; Dataset release: **no**_
#### Added
- Updated the content import criteria applied to Datacite, resulting in +13Mi Other Research Products (+167%)
- Introduced project PIDs; DOI currently available for grants funded by FCT and TWCF
#### Changed
- Scientific products typed as "Collection" categorized under "Research Data" instead of "Other Research Product".
- Updated Crossref publications to include contents until January 2023
- Updated Datacite contents until January 2024
### v7.1.0
_Start Date: 2024-01-30 &bull; Release Date: 2024-02-20 &bull; Dataset release: **no**_
#### Added
- The scientific products aggregated increased by ~5Mi records (+1.6%)
#### Changed
- A refined version of the deduplication strategy allowed to catch more duplicates among the scientific products, implying
a decrease of their total number of ~3.2Mi (-1.35%). More details about the deduplication algorithm are available [here](graph-production-workflow/deduplication/research-products).
- Updated Crossref publications to include contents until November 2023
- Updated Datacite contents until December 2023
### v7.0.0
_Start Date: 2023-12-18 &bull; Release Date: 2024-01-06 &bull; Dataset release: **yes**_
#### Added
- the scientific products increased by ~3Mi records (+1.26%)
- the number of relations increased by 28.6Mi (+1%)
- the funded contents increased by 5%, from 3.6Mi to 3,8Mi. Funders that recorded the highest increase include, for example, EC with +120K linked research products, and SFI with +1K products.
#### Changed
This graph release also introduces new fields to identify reseach products published using specific open access models, in diamond journals, and those that received public funding. These fields will also be added to the graph dataset in Zenodo. In details:
- `ResearchProduct.isGreen (true, false)`: indicates whether or not the researh product was published following the green open access model;
- `ResearchProduct.openAccesColor (bronze, gold, hybrid)`: indicates the specific open access model used for the publication;
- `ResearchProduct.isInDiamondJournal (true, false)`: indicates whether or not the research product was published in a diamond journal;
- `ResearchProduct.publicly-funded (true, false)`: indicates whether or not the grants acknowledged by the publication come from public funds.
### v6.2.2
_Start Date: 2023-11-07 &bull; Release Date: 2023-11-23 &bull; Dataset release: **no**_
#### Added
- Imported Opencitation's POCI dataset, containing citations among publications in PubMed
- Imported Affiliations from Crossref and from PubMed
- Imported Software Heritage identifiers for Software records
- Extended coverage of Irish funders imported from Crossref
- Peer reviewed material identified with a revised heuristic that allowed to improve the coverage
- Project references identified by TDM increased by ~10%
- Introduced new Field of Science classifications for ~40Mi publications
#### Changed
- Updated Crossref publications to include contents until October 2023
- Updated Datacite contents until October 2023
- Indicators regarding data source downloads and views taken by usage counts from September 2023
### v6.1.1
_Start Date: 2023-09-11 &bull; Release Date: 2023-10-15 &bull; Dataset release: **no**_
#### Added
- Affiliation (research product to organization) relations from Crossref
- Links to the full text of research products
- Cleaning for author and publisher names (get rid of tabs, CR characters, \n(s), escape double quotes)
#### Changed
- Projects without a grant code are removed
- Crossref dump from July 2023
- ORCID works without a DOI from March 2023
- Usage counts from July 2023
- Datacite contents from early July 2023
- OpenCitations relations from December 2022
### v6.0.0
_Start Date: 2023-07-26 &bull; Release Date: 2023-08-16 &bull; Dataset release: **yes**_
#### Changed
- [Relationship data model](./data-model/relationships/relationship-object): flattened properties source, sourceType, target, targetType
- BIP! indicators are now serialised as an array; see the updated model [here](./data-model/entities/other#bipindicators)
- Crossref dump from June 2023
- ORCID works without a DOI from June 2023
- Usage counts from June 2023
- Datacite contents from June 2023
- OpenCitations relations from January 2023
- BIP! indicators from June 2023
- New Datasources/Services were added, collected from an updated EOSC Service catalogue endpoint
### v5.2.0
_Start Date: 2023-07-03 &bull; Release Date: 2023-07-17 &bull; Dataset release: **no**_
#### Added
- Citations imported from Crossref & MAG
- FoS and SDG classifications introduced for ~16Mi research products
#### Changed
- Removed the numerical prefix from the OpenAIRE identifiers (```"20|openorgs____::..." --> "openorgs____::..."```)
- Dataset file names in the Zenodo depositions changed from `dump` to `dataset`
- Crossref dump from May 2023
- ORCID works without a DOI from June 2023
- Usage counts from April 2023
- Datacite contents from June 2023
- OpenCitations relations from January 2023
- Deduplication of the datasource
- Avoid duplicated organisation PIDs
### v5.1.3
_Start Date: 2023-05-22 &bull; Release Date: 2023-06-12 &bull; Dataset release: **no**_
#### Added
- Datasource and project level usage counts
#### Changed
- Crossref dump from April 2023
- ORCID works without a DOI from May 2023
- Usage counts from April 2023
- Datacite contents from May 2023
- OpenCitations relations from January 2023
- Deduplication of the datasource
### v5.1.2
_Start Date: 2023-03-20 &bull; Release Date: 2023-04-04 &bull; Dataset release: **no**_
#### Changed
- Crossref dump from February 2023
- ORCID works without a DOI from March 2023
- Usage counts from February 2023 (+76% Downloads per Datasource for 2023)
- Datacite contents from mid March 2023
- OpenCitations relations from January 2023
### v5.1.1
_Start Date: 2023-02-13 &bull; Release Date: 2023-03-01 &bull; Dataset release: **no**_
#### Added
- Revised SDG classification: improved coverage (+600K classified DOIs)
- General increase of the funded scientific outputs, thanks to the full text mining scanning new OpenAccess publications
- Integrated contents from
- [EMBL-EBIs Protein Data Bank in Europe](./graph-production-workflow/aggregation/non-compatible-sources/ebi)
- [UniProtKB/Swiss-Prot](./graph-production-workflow/aggregation/non-compatible-sources/uniprot)
#### Changed
- Crossref dump from January 2023
- ORCID works without a DOI from January 2023
- Usage counts from January 2023
- Datacite contents from mid February 2023
- OpenCitations relations from December 2022
### v5.1.0
_Start Date: 2023-01-16 &bull; Release Date: 2023-01-30 &bull; Dataset release: **no**_
#### Added
- Revised SDG classification: better accuracy, lower coverage (will improve in the next months)
#### Changed
- Crossref dump from December 2022
- ORCID works without a DOI from January 2023
- Usage counts from December 2022
- DataCite contents from January 2023
---
### v5.0.0
_Start Date: 2022-12-19 &bull; Release Date: 2022-12-28 &bull; Dataset release: **yes**_
#### Added
- [Impact & Usage indicators](./data-model/entities/research-product.md#indicators) at the level of the research product
- [Beginner's kit](./downloads/beginners-kit) in the Downloads section
- New relationship types were introduced; see the complete list [here](./data-model/relationships/relationship-types)
#### Changed
- FOS and SDGs were removed from the [ResearchProduct.subjects](./data-model/entities/research-product#subjects)
- Measures were removed from the [ResearchProduct.instance](./data-model/entities/research-product#instance)
- Updated DOIBoost to include publications from Crossref and the works from ORCID with a DOI until November 2022
- Added ORCID works without a DOI from November 2022

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@ -1,25 +1,26 @@
# Data model # Data model
The OpenAIRE Research Graph comprises several types of [entities](../category/entities) and [relationships](./relationships) among them. The OpenAIRE Graph comprises several types of [entities](../category/entities) and [relationships](/category/relationships) among them.
The latest version of the JSON schema can be found on the [Downloads](../downloads/full-graph) section. The latest version of the JSON schema can be found on the [Downloads](../downloads/full-graph) section.
<p align="center"> <p align="center">
<img loading="lazy" alt="Data model" src={require('../assets/img/data-model.png').default} width="80%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/> <img loading="lazy" alt="Data model" src={require('../assets/img/data-model-3.png').default} width="80%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p> </p>
The figure above, presents the graph's data model. The figure above, presents the graph's data model.
Its main entities are described in brief below: Its main entities are described in brief below:
* [Results](entities/result) represent the outcomes of research activities. * [Research products](./entities/research-product) represent the outcomes (or products) of research activities.
* [Data Sources](entities/data-source) are the resources used to collect metadata for the graph objects * [Data sources](./entities/data-source) are the sources from which the metadata of graph objects are collected.
* [Organizations](entities/organization) correspond to companies or research institutions involved in projects, * [Organizations](./entities/organization) correspond to companies or research institutions involved in projects,
responsible for operating data sources or consisting the affiliations of Product creators. responsible for operating data sources or consisting the affiliations of Product creators.
* [Projects](entities/project) are research projects funded by a Funding Stream of a Funder. * [Projects](./entities/project) are research project grants funded by a Funding Stream of a Funder.
* [Communities](entities/community) are groups of people with a common research intent. * [Communities](./entities/community) are groups of people with a common research intent (e.g. research infrastructures, university alliances).
* Persons correspond to individual researchers who are involved in the design, creation or maintenance of research products. Currently, this is a non-materialized entity type in the Graph, which means that the respective metadata (and relationships) are encapsulated in the author field of the respective research products.
:::note Further reading :::note Further reading
A detailed report on the OpenAIRE Research Graph Data Model can be found on [Zenodo](https://zenodo.org/record/2643199). A detailed report on the OpenAIRE Graph Data Model can be found on [Zenodo](https://zenodo.org/record/2643199).
::: :::

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@ -3,6 +3,6 @@
"position": 1, "position": 1,
"link": { "link": {
"type": "generated-index", "type": "generated-index",
"description": "The main entities of the OpenAIRE Research Graph are listed below." "description": "The main entities of the OpenAIRE Graph are listed below."
} }
} }

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@ -2,7 +2,7 @@
sidebar_position: 6 sidebar_position: 6
--- ---
# Community # Communities
Research communities and research initiatives are intended as groups of people with a common research intent and can be of two types: research initiatives or research communities: Research communities and research initiatives are intended as groups of people with a common research intent and can be of two types: research initiatives or research communities:
@ -19,7 +19,7 @@ _Type: String &bull; Cardinality: ONE_
The OpenAIRE id for the community/research infrastructure, created according to the [OpenAIRE entity identifier and PID mapping policy](../pids-and-identifiers). The OpenAIRE id for the community/research infrastructure, created according to the [OpenAIRE entity identifier and PID mapping policy](../pids-and-identifiers).
```json ```json
"id": "00|context_____::5b7f9fa40bdc12072249204cedfa7808" "id": "context_____::5b7f9fa40bdc12072249204cedfa7808"
``` ```
### acronym ### acronym
@ -72,11 +72,11 @@ The type of the community; one of `{ Research Community, Research infrastructure
"type": "Research Community" "type": "Research Community"
``` ```
### zenodo_community ### zenodoCommunity
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The URL of the Zenodo community associated to the Research community/Research infrastructure. The URL of the Zenodo community associated to the Research community/Research infrastructure.
```json ```json
"zenodo_community": "https://zenodo.org/communities/covid-19" "zenodoCommunity": "https://zenodo.org/communities/covid-19"
``` ```

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sidebar_position: 2 sidebar_position: 2
--- ---
# Data source # Data sources
OpenAIRE entity instances are created out of data collected from various data sources of different kinds, such as publication repositories, dataset archives, CRIS systems, funder databases, etc. Data sources export information packages (e.g., XML records, HTTP responses, RDF data, JSON) that may contain information on one or more of such entities and possibly relationships between them. OpenAIRE entity instances are created out of data collected from various data sources of different kinds, such as publication repositories, research data archives, CRIS systems, funder databases, etc. Data sources export information packages (e.g., XML records, HTTP responses, RDF data, JSON) that may contain information on one or more of such entities and possibly relationships between them.
For example, a metadata record about a project carries information for the creation of a Project entity and its participants (as Organization entities). It is important, once each piece of information is extracted from such packages and inserted into the OpenAIRE information space as an entity, for such pieces to keep provenance information relative to the originating data source. This is to give visibility to the data source, but also to enable the reconstruction of the very same piece of information if problems arise. For example, a metadata record about a project carries information for the creation of a Project entity and its participants (as Organization entities). It is important, once each piece of information is extracted from such packages and inserted into the OpenAIRE information space as an entity, for such pieces to keep provenance information relative to the originating data source. This is to give visibility to the data source, but also to enable the reconstruction of the very same piece of information if problems arise.
@ -18,7 +18,7 @@ _Type: String &bull; Cardinality: ONE_
The OpenAIRE id of the data source, created according to the [OpenAIRE entity identifier and PID mapping policy](../pids-and-identifiers). The OpenAIRE id of the data source, created according to the [OpenAIRE entity identifier and PID mapping policy](../pids-and-identifiers).
```json ```json
"id": "10|issn___print::22c514d022b199c346e7f29ca06efc95" "id": "issn___print::22c514d022b199c346e7f29ca06efc95"
``` ```
### originalId ### originalId
@ -49,70 +49,70 @@ The persistent identifiers for the datasource.
] ]
``` ```
### datasourcetype ### type
_Type: [ControlledField](other#controlledfield) &bull; Cardinality: ONE_ _Type: [ControlledField](other#controlledfield) &bull; Cardinality: ONE_
The datasource type; see the vocabulary [dnet:datasource_typologies](https://api.openaire.eu/vocabularies/dnet:datasource_typologies). The datasource type; see the vocabulary [dnet:datasource_typologies](https://api.openaire.eu/vocabularies/dnet:datasource_typologies).
```json ```json
"datasourcetype": { "type": {
"scheme": "pubsrepository::journal", "scheme": "pubsrepository::journal",
"value": "Journal" "value": "Journal"
} }
``` ```
### openairecompatibility ### openaireCompatibility
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The OpenAIRE compatibility of the ingested results, indicates which guidelines they are compliant according to the vocabulary [dnet:datasourceCompatibilityLevel](https://api.openaire.eu/vocabularies/dnet:datasourceCompatibilityLevel). The OpenAIRE compatibility of the ingested research products, indicates which guidelines they are compliant according to the vocabulary [dnet:datasourceCompatibilityLevel](https://api.openaire.eu/vocabularies/dnet:datasourceCompatibilityLevel).
```json ```json
"openairecompatibility": "collected from a compatible aggregator" "openaireCompatibility": "collected from a compatible aggregator"
``` ```
### officialname ### officialName
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The official name of the datasource. The official name of the datasource.
```json ```json
"officialname": "Recent Patents and Topics on Medical Imaging" "officialBame": "Recent Patents and Topics on Medical Imaging"
``` ```
### englishname ### englishName
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The English name of the datasource. The English name of the datasource.
```json ```json
"englishname": "Recent Patents and Topics on Medical Imaging" "englishName": "Recent Patents and Topics on Medical Imaging"
``` ```
### websiteurl ### websiteUrl
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The URL of the website of the datasource. The URL of the website of the datasource.
```json ```json
"websiteurl": "http://dspace.unict.it/" "websiteUrl": "http://dspace.unict.it/"
``` ```
### logourl ### logoUrl
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The URL of the logo for the datasource. The URL of the logo for the datasource.
```json ```json
"logourl": "https://impactum-journals.uc.pt/public/journals/26/pageHeaderLogoImage_en_US.png" "logoUrl": "https://impactum-journals.uc.pt/public/journals/26/pageHeaderLogoImage_en_US.png"
``` ```
### dateofvalidation ### dateOfValidation
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The date of validation against the OpenAIRE guidelines for the datasource records. The date of validation against the OpenAIRE guidelines for the datasource records.
```json ```json
"dateofvalidation": "2016-10-10" "dateOfValidation": "2016-10-10"
``` ```
### description ### description
@ -149,55 +149,55 @@ The languages present in the data source's content, as defined by OpenDOAR.
] ]
``` ```
### contenttypes ### contentTypes
_Type: String &bull; Cardinality: MANY_ _Type: String &bull; Cardinality: MANY_
Types of content in the data source, as defined by OpenDOAR Types of content in the data source, as defined by OpenDOAR
```json ```json
"contenttypes": [ "contentTypes": [
"Journal articles", "Journal articles",
... ...
] ]
``` ```
### releasestartdate ### releaseStartDate
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
Releasing date of the data source, as defined by re3data.org. Releasing date of the data source, as defined by re3data.org.
```json ```json
"releasestartdate": "2010-07-24" "releaseStartDate": "2010-07-24"
``` ```
### releaseenddate ### releaseEndDate
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
Date when the data source went offline or stopped ingesting new research data. As defined by re3data.org Date when the data source went offline or stopped ingesting new research data. As defined by re3data.org
```json ```json
"releaseenddate": "2016-03-28" "releaseEndDate": "2016-03-28"
``` ```
### accessrights ### accessRights
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
Type of access to the data source, as defined by re3data.org. Possible values: `{ open, restricted, closed }`. Type of access to the data source, as defined by re3data.org. Possible values: `{ open, restricted, closed }`.
```json ```json
"accessrights": "open" "accessRights": "open"
``` ```
### uploadrights ### uploadRights
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
Type of data upload, as defined by re3data.org; one of `{ open, restricted, closed }`. Type of data upload, as defined by re3data.org; one of `{ open, restricted, closed }`.
```json ```json
"uploadrights": "closed" "uploadRights": "closed"
``` ```
### databaseaccessrestriction ### databaseAccessRestriction
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
Access restrictions to the research data repository. Allowed values are: `{ feeRequired, registration, other }`. Access restrictions to the research data repository. Allowed values are: `{ feeRequired, registration, other }`.
@ -205,10 +205,10 @@ Access restrictions to the research data repository. Allowed values are: `{ feeR
This field only applies for re3data data source; see [re3data schema specification](https://gfzpublic.gfz-potsdam.de/rest/items/item_758898_6/component/file_775891/content) for more details. This field only applies for re3data data source; see [re3data schema specification](https://gfzpublic.gfz-potsdam.de/rest/items/item_758898_6/component/file_775891/content) for more details.
```json ```json
"databaseaccessrestriction": "registration" "databaseAccessRestriction": "registration"
``` ```
### datauploadrestriction ### dataUploadRestriction
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
Upload restrictions applied by the datasource, as defined by re3data.org. One of `{ feeRequired, registration, other }`. Upload restrictions applied by the datasource, as defined by re3data.org. One of `{ feeRequired, registration, other }`.
@ -216,7 +216,7 @@ Upload restrictions applied by the datasource, as defined by re3data.org. One of
This field only applies for re3data data source; see [re3data schema specification](https://gfzpublic.gfz-potsdam.de/rest/items/item_758898_6/component/file_775891/content) for more details. This field only applies for re3data data source; see [re3data schema specification](https://gfzpublic.gfz-potsdam.de/rest/items/item_758898_6/component/file_775891/content) for more details.
```json ```json
"datauploadrestriction": "feeRequired registration" "dataUploadRestriction": "feeRequired registration"
``` ```
### versioning ### versioning
@ -231,7 +231,7 @@ This field only applies for re3data data source; see [re3data schema specificati
"versioning": true "versioning": true
``` ```
### citationguidelineurl ### citationGuidelineUrl
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The URL of the data source providing information on how to cite its items. The DataCite citation format is recommended (http://www.datacite.org/whycitedata). The URL of the data source providing information on how to cite its items. The DataCite citation format is recommended (http://www.datacite.org/whycitedata).
@ -239,16 +239,16 @@ The URL of the data source providing information on how to cite its items. The D
This field only applies for re3data data source; see [re3data schema specification](https://gfzpublic.gfz-potsdam.de/rest/items/item_758898_6/component/file_775891/content) for more details. This field only applies for re3data data source; see [re3data schema specification](https://gfzpublic.gfz-potsdam.de/rest/items/item_758898_6/component/file_775891/content) for more details.
```json ```json
"citationguidelineurl": "https://physionet.org/about/#citation" "citationGuidelineUrl": "https://physionet.org/about/#citation"
``` ```
### pidsystems ### pidSystems
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The persistent identifier system that is used by the data source. As defined by re3data.org. The persistent identifier system that is used by the data source. As defined by re3data.org.
```json ```json
"pidsystems": "hdl" "pidSystems": "hdl"
``` ```
### certificates ### certificates
@ -284,11 +284,11 @@ Information about the journal, if this data source is of type Journal.
} }
``` ```
### missionstatementurl ### missionStatementUrl
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The URL of a mission statement describing the designated community of the data source. As defined by re3data.org The URL of a mission statement describing the designated community of the data source. As defined by re3data.org
```json ```json
"missionstatementurl": "https://www.sigma2.no/content/nird-research-data-archive" "missionStatementUrl": "https://www.sigma2.no/content/nird-research-data-archive"
``` ```

View File

@ -2,7 +2,7 @@
sidebar_position: 3 sidebar_position: 3
--- ---
# Organization # Organizations
Organizations include companies, research centers or institutions involved as project partners or as responsible of operating data sources. Information about organizations are collected from funder databases like CORDA, registries of data sources like OpenDOAR and re3Data, and CRIS systems, as being related to projects or data sources. Organizations include companies, research centers or institutions involved as project partners or as responsible of operating data sources. Information about organizations are collected from funder databases like CORDA, registries of data sources like OpenDOAR and re3Data, and CRIS systems, as being related to projects or data sources.
@ -17,34 +17,34 @@ _Type: String &bull; Cardinality: ONE_
The OpenAIRE id for the organization, created according to the [OpenAIRE entity identifier and PID mapping policy](../pids-and-identifiers). The OpenAIRE id for the organization, created according to the [OpenAIRE entity identifier and PID mapping policy](../pids-and-identifiers).
```json ```json
"id": "20|openorgs____::b84450f9864182c67b8611b5593f4250" "id": "openorgs____::b84450f9864182c67b8611b5593f4250"
``` ```
### legalshortname ### legalShortName
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The legal name in short form of the organization. The legal name in short form of the organization.
```json ```json
"legalshortname": "ARC" "legalShortName": "ARC"
``` ```
### legalname ### legalName
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The legal name of the organization. The legal name of the organization.
```json ```json
"legalname": "Athena Research and Innovation Center In Information Communication & Knowledge Technologies" "legalName": "Athena Research and Innovation Center In Information Communication & Knowledge Technologies"
``` ```
### alternativenames ### alternativeNames
_Type: String &bull; Cardinality: MANY_ _Type: String &bull; Cardinality: MANY_
Alternative names that identify the organization. Alternative names that identify the organization.
```json ```json
"alternativenames": [ "alternativeNames": [
"Athena Research and Innovation Center In Information Communication & Knowledge Technologies", "Athena Research and Innovation Center In Information Communication & Knowledge Technologies",
"Athena RIC", "Athena RIC",
"ARC", "ARC",
@ -52,13 +52,13 @@ Alternative names that identify the organization.
] ]
``` ```
### websiteurl ### websiteUrl
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The websiteurl of the organization. The websiteurl of the organization.
```json ```json
"websiteurl": "https://www.athena-innovation.gr/el/announce/pressreleases.html" "websiteUrl": "https://www.athena-innovation.gr/el/announce/pressreleases.html"
``` ```
### country ### country
@ -86,8 +86,7 @@ The list of persistent identifiers for the organization.
}, },
{ {
"scheme": "GRID", "scheme": "GRID",
"value": "value": "grid.19843.37"
"grid.19843.37"
}, },
... ...
] ]

View File

@ -20,7 +20,7 @@ Indicates the OpenAccess status. Values are set according to the [Unpaywall meth
``` ```
## AlternateIdentifier ## AlternateIdentifier
Type used to represent the information associated to persistent identifiers associated to the result that have not been forged by an authority for that pid type. For example we collect metadata from an institutional repository that provides as identifier for the result also the doi. Type used to represent the information associated to persistent identifiers associated to the research product that have not been forged by an authority for that pid type. For example we collect metadata from an institutional repository that provides as identifier for the research product also the DOI.
### scheme ### scheme
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
@ -63,15 +63,15 @@ The quantity of money.
## Author ## Author
Represents the result author. Represents the research product author.
### fullname ### fullName
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
Author's full name. Author's full name.
```json ```json
"fullname": "Turunen, Heidi" "fullName": "Turunen, Heidi"
``` ```
### name ### name
@ -95,7 +95,7 @@ Author's family name.
### rank ### rank
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
Author's order in the list of authors for the given result. Author's order in the list of authors for the given research product.
```json ```json
"rank": 1 "rank": 1
@ -167,7 +167,7 @@ The author's pid value in that scheme.
``` ```
## BestAccessRight ## BestAccessRight
Indicates the most open access rights \*available among the result Instances. Indicates the most open access rights \*available among the research product instances.
\* where the openness is defined by the ordering of the access right terms in the following. \* where the openness is defined by the ordering of the access right terms in the following.
``` ```
@ -201,36 +201,87 @@ Scheme of reference for access right code. Currently, always set to COAR access
"scheme": "http://vocabularies.coar-repositories.org/documentation/access_rights/" "scheme": "http://vocabularies.coar-repositories.org/documentation/access_rights/"
``` ```
## CitationImpact
The different citation-based impact indicators as computed by [BIP!](https://bip.imsi.athenarc.gr/).
### indicator
_Type: String &bull; Cardinality: ONE_
The name of indicator; it can be either one of:
* `influence`: it reflects the overall/total (citation-based) impact of an article in the research community at large, based on the underlying citation network (diachronically).
* `citationCount`: it is an alternative to the "Influence" indicator, which also reflects the overall/total (citation-based) impact of an article in the research community at large, based on the underlying citation network (diachronically).
* `popularity`: it reflects the "current" (citation-based) impact/attention (the "hype") of an article in the research community at large, based on the underlying citation network.
* `impulse`: it reflects the initial momentum of an article directly after its publication, based on the underlying citation network.
For more details on how these indicators are calculated, please refer [here](/graph-production-workflow/indicators-ingestion/impact-indicators).
```json
"citationImpact": {
"influence": 123,
"influenceClass": "C2",
"citationCount": 456,
"citationClass": "C3",
"popularity": 234,
"popularityClass": "C1",
"impulse": 987,
"impulseClass": "C3"
}
```
### class
_Type: String &bull; Cardinality: ONE_
The impact class assigned based on the indicator score.
To facilitate comprehension, BIP! also offers impact classes for articles, to group together those that have similar impact. The following 5 classes are provided:
* `C1`: Top 0.01%
* `C2`: Top 0.1%
* `C3`: Top 1%
* `C4`: Top 10%
* `C5`: Bottom 90%
## Container ## Container
This field has information about the conference or journal where the result has been presented or published. This field has information about the conference or journal where the research product has been presented or published.
```json
"container": {
"name": "Research Policy",
"edition": "xyz",
"issnLinking": "0048-7333",
"issnOnline": "1873-7625",
"issnPrinted": "1377-9655",
"sp": "xyz",
"ep": "xyz",
"iss": "xyz",
"vol": "xyz"
}
```
```json
"container": {
"name": "Research Policy",
"conferenceDate": "2022-09-22",
"conferencePlace": "Padua, Italy"
}
```
### name ### name
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
Name of the journal or conference. Name of the journal or conference.
```json
"name": "Research Policy"
```
### issnPrinted ### issnPrinted
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The journal printed issn. The journal printed issn.
```json
"issnPrinted": "0048-7333"
```
### issnOnline ### issnOnline
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The journal online issn. The journal online issn.
```json
"issnOnline": "1873-7625"
```
### issnLinking ### issnLinking
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
@ -241,114 +292,88 @@ _Type: String &bull; Cardinality: ONE_
The journal issue. The journal issue.
```json
"iss": "5"
```
### sp ### sp
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The start page. The start page.
```json
"sp": "12"
```
### ep ### ep
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The end page. The end page.
```json
"ep": "22"
```
### vol ### vol
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The journal volume. The journal volume.
```json
"vol": "50"
```
### edition ### edition
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The edition of the journal or conference. The edition of the journal or conference.
### conferenceplace ### conferencePlace
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The place of the conference. The place of the conference.
```json ### conferenceDate
"conferenceplace": "Padua, Italy"
```
### conferencedate
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The date of the conference. The date of the conference.
```json
"conferencedate": "2022-09-22"
```
## ControlledField ## ControlledField
<!-- <span className="todo">TODO: similar to AlternateIdentifier and ResultPid?</span> --> <!-- <span className="todo">TODO: similar to AlternateIdentifier and ResultPid?</span> -->
Generic type used to represent the information described by a scheme and a value in that scheme (i.e. pid). Generic type used to represent the information described by a scheme and a value in that scheme (i.e. pid).
```json
{
"scheme": "DOI",
"value": "10.5281/zenodo.4707307"
}
```
### scheme ### scheme
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
Vocabulary reference. Vocabulary reference.
```json
"scheme": "DOI"
```
### value ### value
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
Value from the given scheme/vocabulary. Value from the given scheme/vocabulary.
```json
"value": "10.5281/zenodo.4707307"
```
## Country ## Country
To represent the generic country code and label. To represent the generic country code and label.
```json
{
"code" : "IT",
"label": "Italy"
}
```
### code ### code
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
ISO 3166-1 alpha-2 country code. ISO 3166-1 alpha-2 country code.
```json
"code" : "IT"
```
### label ### label
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The country label. The country label.
```json
"label": "Italy"
```
## Funding ## Funding
Funding information for a project. Funding information for a project.
### funding_stream ### fundingStream
_Type: [FundingStream](#fundingstream) &bull; Cardinality: ONE_ _Type: [FundingStream](#fundingstream) &bull; Cardinality: ONE_
Funding information for the project. Funding information for the project.
```json ```json
"funding_stream": { "fundingStream": {
"description": "Horizon 2020 Framework Programme - Research and Innovation action", "description": "Horizon 2020 Framework Programme - Research and Innovation action",
"id": "EC::H2020::RIA" "id": "EC::H2020::RIA"
} }
@ -444,16 +469,16 @@ The currency of the granted amount (e.g. EUR).
"currency": "EUR" "currency": "EUR"
``` ```
### fundedamount ### fundedAmount
_Type: Number &bull; Cardinality: ONE_ _Type: Number &bull; Cardinality: ONE_
The funded amount. The funded amount.
```json ```json
"fundedamount": 1.0E7 "fundedAmount": 1.0E7
``` ```
### totalcost ### totalCost
_Type: Number &bull; Cardinality: ONE_ _Type: Number &bull; Cardinality: ONE_
The total cost of the project. The total cost of the project.
@ -484,7 +509,7 @@ The description of the programme.
``` ```
## Instance ## Instance
An instance is one specific materialization or version of the result. For example, you can have one result with three instances as result of deduplication: An instance is one specific materialization or version of the research product. For example, you can have one research product with three instances due to deduplication:
* one is the pre-print * one is the pre-print
* one is the post-print * one is the post-print
@ -492,13 +517,13 @@ An instance is one specific materialization or version of the result. For exampl
Each instance is characterized by the properties that follow. Each instance is characterized by the properties that follow.
### accessright ### accessRight
_Type: [AccessRight](#accessright) &bull; Cardinality: ONE_ _Type: [AccessRight](#accessright) &bull; Cardinality: ONE_
Maps [dc:rights](https://www.dublincore.org/specifications/dublin-core/dcmi-terms/elements11/rights/), describes the access rights of the web resources relative to this instance. Maps [dc:rights](https://www.dublincore.org/specifications/dublin-core/dcmi-terms/elements11/rights/), describes the access rights of the web resources relative to this instance.
```json ```json
"accessright": { "accessRight": {
"code": "c_abf2", "code": "c_abf2",
"label": "OPEN", "label": "OPEN",
"openAccessRoute": "gold", "openAccessRoute": "gold",
@ -509,7 +534,7 @@ Maps [dc:rights](https://www.dublincore.org/specifications/dublin-core/dcmi-term
### alternateIdentifier ### alternateIdentifier
_Type: [AlternateIdentifier](#alternateidentifier) &bull; Cardinality: MANY_ _Type: [AlternateIdentifier](#alternateidentifier) &bull; Cardinality: MANY_
All the identifiers associated to the result other than the authoritative ones. All the identifiers associated to the research product other than the authoritative ones.
```json ```json
"alternateIdentifier": [ "alternateIdentifier": [
@ -521,13 +546,13 @@ All the identifiers associated to the result other than the authoritative ones.
] ]
``` ```
### articleprocessingcharge ### articleProcessingCharge
_Type: [APC](#apc) &bull; Cardinality: ONE_ _Type: [APC](#apc) &bull; Cardinality: ONE_
The money spent to make this book or article available in Open Access. Source for this information is the OpenAPC initiative. The money spent to make this book or article available in Open Access. Source for this information is the OpenAPC initiative.
```json ```json
"articleprocessingcharge": { "articleProcessingCharge": {
"currency": "EUR", "currency": "EUR",
"amount": "1000" "amount": "1000"
} }
@ -542,21 +567,6 @@ The license URL.
"license": "http://creativecommons.org/licenses/by-nc/4.0" "license": "http://creativecommons.org/licenses/by-nc/4.0"
``` ```
### measures
_Type: [Measure](#measure) &bull; Cardinality: MANY_
The measures computed for this instance (e.g. those provided by [BIP! Finder](https://bip.imsi.athenarc.gr/)).
```json
"measures": [
{
"key": "influence",
"value": "6.45335454246e-09"
},
...
]
```
### pid ### pid
_Type: [ResultPid](#resultpid) &bull; Cardinality: MANY_ _Type: [ResultPid](#resultpid) &bull; Cardinality: MANY_
@ -572,13 +582,13 @@ The set of persistent identifiers associated to this instance that have been col
] ]
``` ```
### publicationdate ### publicationDate
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The publication date of the research product. The publication date of the research product.
```json ```json
"publicationdate": "2009-02-12" "publicationDate": "2009-02-12"
``` ```
### refereed ### refereed
@ -619,137 +629,150 @@ URLs to the instance. They may link to the actual full-text or to the landing pa
] ]
``` ```
## Indicator
These are indicators computed for a specific OpenAIRE research product.
Each Indicator object is composed of the following properties:
### citationImpact
_Type: [CitationImpact](#citationImpact) &bull; Cardinality: MANY_
These indicators, provided by [BIP!](https://bip.imsi.athenarc.gr/), estimate the citation-based impact of a research product.
For details about their calculation, please refer [here](/graph-production-workflow/indicators-ingestion/impact-indicators).
```json
"citationImpact": {
"influence": 123,
"influenceClass": "C2",
"citationCount": 456,
"citationClass": "C3",
"popularity": 234,
"popularityClass": "C1",
"impulse": 987,
"impulseClass": "C3"
}
```
### usageCounts
_Type: [UsageCounts](#usagecounts-1) &bull; Cardinality: ONE_
These measures, computed by the [UsageCounts Service](https://usagecounts.openaire.eu/), are based on usage statistics.
Please refer [here](/graph-production-workflow/indicators-ingestion/usage-counts) for more details.
```json
"usageCounts": {
"downloads": "10",
"views": "20"
}
```
## Language ## Language
Represents information for the language of the result Represents information for the language of the research product.
```json
"language": {
"code": "eng",
"label": "English"
}
```
### code ### code
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
Alpha-3/ISO 639-2 code of the language. Values controlled by the [dnet:languages vocabulary](https://api.openaire.eu/vocabularies/dnet:languages). Alpha-3/ISO 639-2 code of the language. Values controlled by the [dnet:languages vocabulary](https://api.openaire.eu/vocabularies/dnet:languages).
```json
"code": "eng"
```
### label ### label
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
Language label in English. Language label in English.
```json
"label": "English"
```
## Measure
A measure computed for this instance (e.g. those provided by [BIP! Finder](https://bip.imsi.athenarc.gr/))
### key
_Type: String &bull; Cardinality: ONE_
The specified measure. Currently supported one of:
* `influence` (see [PageRank](/data-provision/indicators-ingestion/impact-scores#pagerank-pr))
* `influence_alt` (see [Citation Count](/data-provision/indicators-ingestion/impact-scores#citation-count-cc))
* `popularity` (see [AttRank](/data-provision/indicators-ingestion/impact-scores#attrank))
* `popularity_alt` (see [RAM](/data-provision/indicators-ingestion/impact-scores#ram))
* `impulse` (see ["Incubation" Citation Count](/data-provision/indicators-ingestion/impact-scores#incubation-citation-count-icc))
```json
"key": "influence"
```
### value
_Type: String &bull; Cardinality: ONE_
```json
"value": "6.45335454246e-09"
```
The value for that measure.
## OrganizationPid ## OrganizationPid
The schema and value for identifiers of the organization. The schema and value for identifiers of the organization.
```json
{
"scheme" : "GRID",
"value" : "grid.7119.e"
}
```
### scheme ### scheme
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
Vocabulary reference (i.e. isni). Vocabulary reference (i.e. isni).
```json
"scheme" : "GRID"
```
### value ### value
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
Value from the given scheme/vocabulary (i.e. 0000000090326370). Value from the given scheme/vocabulary (i.e. 0000000090326370).
```json
"value" : "grid.7119.e"
```
## Provenance ## Provenance
Indicates the process that produced (or provided) the information, and the trust associated to the information. Indicates the process that produced (or provided) the information, and the trust associated to the information.
```json
{
"provenance" : "Harvested",
"trust": "0.9"
}
```
### provenance ### provenance
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
Provenance term from the vocabulary [dnet:provenanceActions](https://api.openaire.eu/vocabularies/dnet:provenanceActions). Provenance term from the vocabulary [dnet:provenanceActions](https://api.openaire.eu/vocabularies/dnet:provenanceActions).
```json
"provenance": "Harvested"
```
### trust ### trust
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
Trust, expressed as a number in the range [0-1]. Trust, expressed as a number in the range [0-1].
```json
"trust": "0.9"
```
## ResultCountry ## ResultCountry
It is for the country associated to the result. Indicates the country associated to the research product.
It is a subclass of [Country](#country) and extends it with provenance information. It is a subclass of [Country](#country) and extends it with provenance information.
### provenance ### provenance
_Type: [Provenance](#provenance-2) &bull; Cardinality: ONE_ _Type: [Provenance](#provenance-2) &bull; Cardinality: ONE_
Indicates the reason why this country is associated to this result. Indicates the reason why this country is associated to this research product.
```json ```json
{
"code" : "IT",
"label": "Italy",
"provenance": { "provenance": {
"provenance": "inferred by OpenAIRE", "provenance": "inferred by OpenAIRE",
"trust": "0.85" "trust": "0.85"
} }
}
``` ```
## ResultPid ## ResultPid
Type used to represent the information associated to persistent identifiers for the result that have been forged by an authority for that pid type. Type used to represent the information associated to persistent identifiers for the research product that have been forged by an authority for that pid type.
<!-- <span className="todo">Seems to be similar to the AlternateIdentifier. What is the difference?</span> --> <!-- <span className="todo">Seems to be similar to the AlternateIdentifier. What is the difference?</span> -->
```json
{
"scheme" : "doi",
"value" : "10.21511/bbs.13(3).2018.13"
}
```
### scheme ### scheme
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The scheme of the persistent identifier for the result (i.e. doi). If the pid is here it means the information for the pid has been collected from an authority for that pid type (i.e. Crossref/Datacite for doi). The set of authoritative pid is: `doi` when collected from Crossref or Datacite, `pmid` when collected from EuroPubmed, `arxiv` when collected from arXiv, `handle` from the repositories. The scheme of the persistent identifier for the research product (i.e. doi). If the pid is here it means the information for the pid has been collected from an authority for that pid type (i.e. Crossref/Datacite for doi). The set of authoritative pid is: `doi` when collected from Crossref or Datacite, `pmid` when collected from EuroPubmed, `arxiv` when collected from arXiv, `handle` from the repositories.
```json
"scheme": "doi"
```
### value ### value
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The value expressed in the scheme (i.e. 10.1000/182). The value expressed in the scheme (i.e. 10.1000/182).
```json
"value": "10.21511/bbs.13(3).2018.13"
```
## Subject ## Subject
Represents keywords associated to the result. Represents keywords associated to the research product.
### subject ### subject
_Type: [SubjectSchemeValue](#subjectschemevalue) &bull; Cardinality: ONE_ _Type: [SubjectSchemeValue](#subjectschemevalue) &bull; Cardinality: ONE_
@ -759,25 +782,14 @@ Contains the subject term: subject type (keyword, MeSH, etc) and the subject ter
```json ```json
"subject": { "subject": {
"scheme": "keyword", "scheme": "keyword",
"value": "SVOC" "value": "SVOC",
}
```
### provenance
_Type: [Provenance](#provenance-2) &bull; Cardinality: ONE_
Contains provenance information for the subject term.
```json
"provenance": { "provenance": {
"provenance": "Harvested", "provenance": "Harvested",
"trust": "0.9" "trust": "0.9"
} }
}
``` ```
## SubjectSchemeValue
Subject classification against a vocabulary
### scheme ### scheme
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
@ -792,6 +804,28 @@ _Type: String &bull; Cardinality: ONE_
The value for the subject in the selected scheme. When the scheme is 'keyword', it means that the subject is free-text (i.e. not a term from a controlled vocabulary). The value for the subject in the selected scheme. When the scheme is 'keyword', it means that the subject is free-text (i.e. not a term from a controlled vocabulary).
### provenance
_Type: [Provenance](#provenance-2) &bull; Cardinality: ONE_
Contains provenance information for the subject term.
## UsageCounts
The usage counts indicator computed for this research product.
```json ```json
"value" : "pyrolysis-oil" "usageCounts": {
"downloads": "10",
"views": "20"
}
``` ```
### views
_Type: String &bull; Cardinality: ONE_
The number of views for this research product.
### downloads
_Type: String &bull; Cardinality: ONE_
The number of downloads for this research product.

View File

@ -2,9 +2,9 @@
sidebar_position: 4 sidebar_position: 4
--- ---
# Project # Projects
Of crucial interest to OpenAIRE is also the identification of the funders (e.g. European Commission, WellcomeTrust, FCT Portugal, NWO The Netherlands) that co-funded the projects that have led to a given result. Projects are characterized by a list of funding streams (e.g. FP7, H2020 for the EC), which identify the strands of fundings. Funding streams can be nested to form a tree of sub-funding streams. Of crucial interest to OpenAIRE is also the identification of the funders (e.g. European Commission, WellcomeTrust, FCT Portugal, NWO The Netherlands) that co-funded the projects that have led to a given research product. Projects are characterized by a list of funding streams (e.g. FP7, H2020 for the EC), which identify the strands of fundings. Funding streams can be nested to form a tree of sub-funding streams.
--- ---
@ -16,7 +16,7 @@ _Type: String &bull; Cardinality: ONE_
Main entity identifier, created according to the [OpenAIRE entity identifier and PID mapping policy](../pids-and-identifiers). Main entity identifier, created according to the [OpenAIRE entity identifier and PID mapping policy](../pids-and-identifiers).
```json ```json
"id": "40|corda__h2020::70ea22400fd890c5033cb31642c4ae68" "id": "corda__h2020::70ea22400fd890c5033cb31642c4ae68"
``` ```
### code ### code
@ -46,13 +46,13 @@ Project's title.
"title": "OpenAIRE Advancing Open Scholarship" "title": "OpenAIRE Advancing Open Scholarship"
``` ```
### callidentifier ### callIdentifier
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The identifier of the research call. The identifier of the research call.
```json ```json
"callidentifier": "H2020-EINFRA-2017"` "callIdentifier": "H2020-EINFRA-2017"`
``` ```
### funding ### funding
@ -63,7 +63,7 @@ Funding information for the project.
```json ```json
"funding": [ "funding": [
{ {
"funding_stream": { "fundingStream": {
"description": "Horizon 2020 Framework Programme - Research and Innovation action", "description": "Horizon 2020 Framework Programme - Research and Innovation action",
"id": "EC::H2020::RIA" "id": "EC::H2020::RIA"
}, },
@ -81,8 +81,8 @@ The money granted to the project.
```json ```json
"granted": { "granted": {
"currency": "EUR", "currency": "EUR",
"fundedamount": 1.0E7, "fundedAmount": 1.0E7,
"totalcost": 1.0E7 "totalCost": 1.0E7
} }
``` ```
@ -109,36 +109,36 @@ _Type: String &bull; Cardinality: ONE_
] ]
``` ```
### openaccessmandatefordataset ### openAccessMandateForDataset
_Type: Boolean &bull; Cardinality: ONE_ _Type: Boolean &bull; Cardinality: ONE_
```json ```json
"openaccessmandatefordataset": true "openAccessMandateForDataset": true
``` ```
### openaccessmandateforpublications ### openAccessMandateForPublications
_Type: Boolean &bull; Cardinality: ONE_ _Type: Boolean &bull; Cardinality: ONE_
```json ```json
"openaccessmandateforpublications": true "openAccessMandateForPublications": true
``` ```
### startdate ### startDate
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The start year of the project. The start year of the project.
```json ```json
"startdate": "2018-01-01" "startDate": "2018-01-01"
``` ```
### enddate ### endDate
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The end year pf the project. The end year pf the project.
```json ```json
"enddate": "2021-02-28" "endDate": "2021-02-28"
``` ```
### subject ### subject
@ -161,11 +161,11 @@ Short summary of the project.
"summary": "OpenAIRE-Advance continues the mission of OpenAIRE to support the Open Access/Open Data mandates in Europe. By sustaining the current successful infrastructure, comprised of a human network and robust technical services, it consolidates its achievements while working to shift the momentum among its communities to Open Science, aiming to be a trusted e-Infrastructurewithin the realms of the European Open Science Cloud.In this next phase, OpenAIRE-Advance strives to empower its National Open Access Desks (NOADs) so they become a pivotal part within their own national data infrastructures, positioningOA and open science onto national agendas. The capacity building activities bring together experts ontopical task groups in thematic areas(open policies, RDM, legal issues, TDM), promoting a train the trainer approach, strengthening and expanding the pan-European Helpdesk with support and training toolkits, training resources and workshops.It examines key elements of scholarly communication, i.e., co-operative OA publishing and next generation repositories, to develop essential building blocks of the scholarly commons.On the technical level OpenAIRE-Advance focuses on the operation and maintenance of the OpenAIRE technical TRL8/9 services,and radically improvesthe OpenAIRE services on offer by: a) optimizing their performance and scalability, b) refining their functionality based on end-user feedback, c) repackagingthem into products, taking a professional marketing approach with well-defined KPIs, d)consolidating the range of services/products into a common e-Infra catalogue to enable a wider uptake.OpenAIRE-Advancesteps up its outreach activities with concrete pilots with three major RIs,citizen science initiatives, and innovators via a rigorous Open Innovation programme. Finally, viaits partnership with COAR, OpenAIRE-Advance consolidatesOpenAIREs global roleextending its collaborations with Latin America, US, Japan, Canada, and Africa." "summary": "OpenAIRE-Advance continues the mission of OpenAIRE to support the Open Access/Open Data mandates in Europe. By sustaining the current successful infrastructure, comprised of a human network and robust technical services, it consolidates its achievements while working to shift the momentum among its communities to Open Science, aiming to be a trusted e-Infrastructurewithin the realms of the European Open Science Cloud.In this next phase, OpenAIRE-Advance strives to empower its National Open Access Desks (NOADs) so they become a pivotal part within their own national data infrastructures, positioningOA and open science onto national agendas. The capacity building activities bring together experts ontopical task groups in thematic areas(open policies, RDM, legal issues, TDM), promoting a train the trainer approach, strengthening and expanding the pan-European Helpdesk with support and training toolkits, training resources and workshops.It examines key elements of scholarly communication, i.e., co-operative OA publishing and next generation repositories, to develop essential building blocks of the scholarly commons.On the technical level OpenAIRE-Advance focuses on the operation and maintenance of the OpenAIRE technical TRL8/9 services,and radically improvesthe OpenAIRE services on offer by: a) optimizing their performance and scalability, b) refining their functionality based on end-user feedback, c) repackagingthem into products, taking a professional marketing approach with well-defined KPIs, d)consolidating the range of services/products into a common e-Infra catalogue to enable a wider uptake.OpenAIRE-Advancesteps up its outreach activities with concrete pilots with three major RIs,citizen science initiatives, and innovators via a rigorous Open Innovation programme. Finally, viaits partnership with COAR, OpenAIRE-Advance consolidatesOpenAIREs global roleextending its collaborations with Latin America, US, Japan, Canada, and Africa."
``` ```
### websiteurl ### websiteUrl
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
The website of the project The website of the project
```json ```json
"websiteurl": "https://www.openaire.eu/advance/" "websiteUrl": "https://www.openaire.eu/advance/"
``` ```

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@ -0,0 +1,527 @@
---
sidebar_position: 1
---
# Research products
Research products are intended as digital objects, described by metadata, resulting from a scientific process.
In this page, we descibe the properties of the `ResearchProduct` object.
Moreover, there are the following sub-types of a `ResearchProduct`, that inherit all its properties and further extend it:
* [Publication](#publication)
* [Data](#data)
* [Software](#software)
* [Other research product](#other-research-product)
---
## The `ResearchProduct` object
### id
_Type: String &bull; Cardinality: ONE_
Main entity identifier, created according to the [OpenAIRE entity identifier and PID mapping policy](../pids-and-identifiers).
```json
"id": "doi_dedup___::80f29c8c8ba18c46c88a285b7e739dc3"
```
### type
_Type: String &bull; Cardinality: ONE_
Type of the research products. Possible types:
* `publication`
* `data`
* `software`
* `other`
as declared in the terms from the [dnet:result_typologies vocabulary](https://api.openaire.eu/vocabularies/dnet:result_typologies).
```json
"type": "publication"
```
### originalId
_Type: String &bull; Cardinality: MANY_
Identifiers of the record at the original sources.
```json
"originalId": [
"oai:pubmedcentral.nih.gov:8024784",
"S0048733321000305",
"10.1016/j.respol.2021.104226",
"3136742816"
]
```
### mainTitle
_Type: String &bull; Cardinality: ONE_
A name or title by which a research product is known. It may be the title of a publication or the name of a piece of software.
```json
"mainTitle": "The fall of the innovation empire and its possible rise through open science"
```
### subTitle
_Type: String &bull; Cardinality: ONE_
Explanatory or alternative name by which a research product is known.
```json
"subTitle": "An analysis of cases from 1980 - 2020"
```
### author
_Type: [Author](other#author) &bull; Cardinality: MANY_
The main researchers involved in producing the data, or the authors of the publication.
```json
"author": [
{
"fullName": "E. Richard Gold",
"rank": 1,
"name": "Richard",
"surname": "Gold",
"pid": {
"id": {
"scheme": "orcid",
"value": "0000-0002-3789-9238"
},
"provenance": {
"provenance": "Harvested",
"trust": "0.9"
}
}
},
...
]
```
### bestAccessRight
_Type: [BestAccessRight](other#bestaccessright) &bull; Cardinality: ONE_
The most open access right associated to the manifestations of this research product.
```json
"bestAccessRight": {
"code": "c_abf2",
"label": "OPEN",
"scheme": "http://vocabularies.coar-repositories.org/documentation/access_rights/"
}
```
### contributor
_Type: String &bull; Cardinality: MANY_
The institution or person responsible for collecting, managing, distributing, or otherwise contributing to the development of the resource.
```json
"contributor": [
"University of Zurich",
"Wright, Aidan G C",
"Hallquist, Michael",
...
]
```
### country
_Type: [ResultCountry](other#resultcountry) &bull; Cardinality: MANY_
Country associated with the research product: it is the country of the organisation that manages the institutional repository or national aggregator or CRIS system from which this record was collected.
Country of affiliations of authors can be found instead in the affiliation relation.
```json
"country": [
{
"code": "CH",
"label": "Switzerland",
"provenance": {
"provenance": "Inferred by OpenAIRE",
"trust": "0.85"
}
},
...
]
```
### coverage
_Type: String &bull; Cardinality: MANY_
### dateOfCollection
_Type: String &bull; Cardinality: ONE_
When OpenAIRE collected the record the last time.
```json
"dateOfCollection": "2021-06-09T11:37:56.248Z"
```
### description
_Type: String &bull; Cardinality: MANY_
A brief description of the resource and the context in which the resource was created.
```json
"description": [
"Open science partnerships (OSPs) are one mechanism to reverse declining efficiency. OSPs are public-private partnerships that openly share publications, data and materials.",
"There is growing concern that the innovation system's ability to create wealth and attain social benefit is declining in effectiveness. This article explores the reasons for this decline and suggests a structure, the open science partnership, as one mechanism through which to slow down or reverse this decline.",
"The article examines the empirical literature of the last century to document the decline. This literature suggests that the cost of research and innovation is increasing exponentially, that researcher productivity is declining, and, third, that these two phenomena have led to an overall flat or declining level of innovation productivity.",
...
]
```
### embargoEndDate
_Type: String &bull; Cardinality: ONE_
Date when the embargo ends and this research product turns Open Access.
```json
"embargoEndDate": "2017-01-01"
```
### indicators
_Type: [Indicator](other#indicator-1) &bull; Cardinality: ONE_
The indicators computed for this research product;
currently, the following types of indicators are supported:
* [Citation-based impact indicators by BIP!](other#citationimpact)
* [Usage Statistics indicators](other#usagecounts)
```json
"indicators": {
"citationImpact": {
"influence": 123,
"influenceClass": "C2",
"citationCount": 456,
"citationClass": "C3",
"popularity": 234,
"popularityClass": "C1",
"impulse": 987,
"impulseClass": "C3"
},
"usageCounts": {
"downloads": "10",
"views": "20"
}
}
```
### instance
_Type: [Instance](other#instance) &bull; Cardinality: MANY_
Specific materialization or version of the research product. For example, you can have one research product with three instances: one is the pre-print, one is the post-print, one is the published version.
```json
"instance": [
{
"accessRight": {
"code": "c_abf2",
"label": "OPEN",
"openAccessRoute": "gold",
"scheme": "http://vocabularies.coar-repositories.org/documentation/access_rights/"
},
"alternateIdentifier": [
{
"scheme": "doi",
"value": "10.1016/j.respol.2021.104226"
},
...
],
"articleProcessingCharge": {
"amount": "4063.93",
"currency": "EUR"
},
"license": "http://creativecommons.org/licenses/by-nc/4.0",
"pid": [
{
"scheme": "pmc",
"value": "PMC8024784"
},
...
],
"publicationDate": "2021-01-01",
"refereed": "UNKNOWN",
"type": "Article",
"url": [
"http://europepmc.org/articles/PMC8024784"
]
},
...
]
```
### language
_Type: [Language](other#language) &bull; Cardinality: ONE_
The alpha-3/ISO 639-2 code of the language. Values controlled by the [dnet:languages vocabulary](https://api.openaire.eu/vocabularies/dnet:languages).
```json
"language": {
"code": "eng",
"label": "English"
}
```
### lastUpdateTimeStamp
_Type: Long &bull; Cardinality: ONE_
Timestamp of last update of the record in OpenAIRE.
```json
"lastUpdateTimeStamp": 1652722279987
```
### pid
_Type: [ResultPid](other#resultpid) &bull; Cardinality: MANY_
Persistent identifiers of the research product. See also the [OpenAIRE entity identifier and PID mapping policy](../pids-and-identifiers) to learn more.
```json
"pid": [
{
"scheme": "pmc",
"value": "PMC8024784"
},
{
"scheme": "doi",
"value": "10.1016/j.respol.2021.104226"
},
...
]
```
### publicationDate
_Type: String &bull; Cardinality: ONE_
Main date of the research product: typically the publication or issued date. In case of a research product with different versions with different dates, the date of the research product is selected as the most frequent well-formatted date. If not available, then the most recent and complete date among those that are well-formatted. For statistics, the year is extracted and the research product is counted only among the research products of that year. Example: Pre-print date: 2019-02-03, Article date provided by repository: 2020-02, Article date provided by Crossref: 2020, OpenAIRE will set as date 2019-02-03, because its the most recent among the complete and well-formed dates. If then the repository updates the metadata and set a complete date (e.g. 2020-02-12), then this will be the new date for the research product because it becomes the most recent most complete date. However, if OpenAIRE then collects the pre-print from another repository with date 2019-02-03, then this will be the “winning date” because it becomes the most frequent well-formatted date.
```json
"publicationDate": "2021-03-18"
```
### publisher
_Type: String &bull; Cardinality: ONE_
The name of the entity that holds, archives, publishes prints, distributes, releases, issues, or produces the resource.
```json
"publisher": "Elsevier, North-Holland Pub. Co"
```
### source
_Type: String &bull; Cardinality: MANY_
A related resource from which the described resource is derived. See definition of Dublin Core field [dc:source](https://www.dublincore.org/specifications/dublin-core/dcmi-terms/elements11/source).
```json
"source": [
"Research Policy",
"Crossref",
...
]
```
### subjects
_Type: [Subject](other#subject) &bull; Cardinality: MANY_
Subject, keyword, classification code, or key phrase describing the resource.
OpenAIRE classifies research products according to the [Field of Science](../../graph-production-workflow/indicators-ingestion/fos-classification.md)
and [Sustainable Development Goals](../../graph-production-workflow/indicators-ingestion/sdg-classification.md) taxonomies.
Check out the relative sections to know more.
```json
"subjects": [
{
"subject": {
"scheme": "FOS",
"value": "01 natural sciences"
},
"provenance": {
"provenance": "inferred by OpenAIRE",
"trust": "0.85"
}
},
{
"subject": {
"scheme": "SDG",
"value": "2. Zero hunger"
},
"provenance": {
"provenance": "inferred by OpenAIRE",
"trust": "0.83"
}
},
{
"subject": {
"scheme": "keyword",
"value": "Open science"
},
"provenance": {
"provenance": "Harvested",
"trust": "0.9"
}
},
...
]
```
### isGreen
_Type: Boolean &bull; Cardinality: ONE_
Indicates whether or not the scientific result was published following the green open access model.
### openAccessColor
_Type: String &bull; Cardinality: ONE_
Indicates the specific open access model used for the publication; possible value is one of `bronze, gold, hybrid`.
### isInDiamondJournal
_Type: Boolean &bull; Cardinality: ONE_
Indicates whether or not the publication was published in a diamond journal.
### publiclyFunded
_Type: String &bull; Cardinality: ONE_
Discloses whether the publication acknowledges grants from public sources.
---
## Sub-types
There are the following sub-types of `Result`. Each inherits all its fields and extends them with the following.
### Publication
Metadata records about research literature (includes types of publications listed [here](http://api.openaire.eu/vocabularies/dnet:result_typologies/publication)).
#### container
_Type: [Container](other#container) &bull; Cardinality: ONE_
Container has information about the conference or journal where the research product has been presented or published.
```json
"container": {
"edition": "",
"iss": "5",
"issnLinking": "",
"issnOnline": "1873-7625",
"issnPrinted": "0048-7333",
"name": "Research Policy",
"sp": "12",
"ep": "22",
"vol": "50"
}
```
### Data
Metadata records about research data (includes the subtypes listed [here](http://api.openaire.eu/vocabularies/dnet:result_typologies/dataset)).
#### size
_Type: String &bull; Cardinality: ONE_
The declared size of the research data.
```json
"size": "10129818"
```
#### version
_Type: String &bull; Cardinality: ONE_
The version of the research data.
```json
"version": "v1.3"
```
#### geolocation
_Type: [GeoLocation](other#geolocation) &bull; Cardinality: MANY_
The list of geolocations associated with the research data.
```json
"geolocation": [
{
"box": "18.569386 54.468973 18.066832 54.83707",
"place": "Tübingen, Baden-Württemberg, Southern Germany",
"point": "7.72486 50.1084"
},
...
]
```
### Software
Metadata records about research software (includes the subtypes listed [here](http://api.openaire.eu/vocabularies/dnet:result_typologies/software)).
#### documentationUrl
_Type: String &bull; Cardinality: MANY_
The URLs to the software documentation.
```json
"documentationUrl": [
"https://github.com/openaire/iis/blob/master/README.markdown",
...
]
```
#### codeRepositoryUrl
_Type: String &bull; Cardinality: ONE_
The URL to the repository with the source code.
```json
"codeRepositoryUrl": "https://github.com/openaire/iis"
```
#### programmingLanguage
_Type: String &bull; Cardinality: ONE_
The programming language.
```json
"programmingLanguage": "Java"
```
### Other research product
Metadata records about research products that cannot be classified as research literature, data or software (includes types of products listed [here](http://api.openaire.eu/vocabularies/dnet:result_typologies/other)).
#### contactPerson
_Type: String &bull; Cardinality: MANY_
Information on the person responsible for providing further information regarding the resource.
```json
"contactPerson": [
"Noémie Dominguez",
...
]
```
#### contactGroup
_Type: String &bull; Cardinality: MANY_
Information on the group responsible for providing further information regarding the resource.
```json
"contactGroup": [
"Networked Multimedia Information Systems (NeMIS)",
...
]
```
#### tool
_Type: String &bull; Cardinality: MANY_
Information about tool useful for the interpretation and/or re-use of the research product.

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@ -1,6 +1,6 @@
# PIDs and identifiers # PIDs and identifiers
One of the challenges towards the stability of the contents in the OpenAIRE Research Graph consists of making its identifiers and records stable over time. One of the challenges towards the stability of the contents in the OpenAIRE Graph consists of making its identifiers and records stable over time.
The barriers to this scenario are many, as the Graph keeps a map of data sources that is subject to constant variations: records in repositories vary in content, The barriers to this scenario are many, as the Graph keeps a map of data sources that is subject to constant variations: records in repositories vary in content,
original IDs, and PIDs, may disappear or reappear, and the same holds for the repository or the metadata collection it exposes. original IDs, and PIDs, may disappear or reappear, and the same holds for the repository or the metadata collection it exposes.
Not only, but the mappings applied to the original contents may also change and improve over time to catch up with the changes in the input records. Not only, but the mappings applied to the original contents may also change and improve over time to catch up with the changes in the input records.
@ -18,9 +18,13 @@ Such a policy defines a list of data sources that are considered authoritative f
| doi | [Crossref](https://www.crossref.org), [Datacite](https://datacite.org) | | doi | [Crossref](https://www.crossref.org), [Datacite](https://datacite.org) |
| pmc, pmid | [Europe PubMed Central](https://europepmc.org/), [PubMed Central](https://www.ncbi.nlm.nih.gov/pmc) | | pmc, pmid | [Europe PubMed Central](https://europepmc.org/), [PubMed Central](https://www.ncbi.nlm.nih.gov/pmc) |
| arXiv | [arXiv.org e-Print Archive](https://arxiv.org/) | | arXiv | [arXiv.org e-Print Archive](https://arxiv.org/) |
| uniprot | [Protein Data Bank](http://www.pdb.org/) |
| ena | [Protein Data Bank](http://www.pdb.org/) |
| pdb | [Protein Data Bank](http://www.pdb.org/) |
There is an exception though: Handle(s) are minted by several repositories; as listing them all would not be a viable option, to avoid losing them as PIDs, Handles bypass the PID authority filtering rule. There is an exception though: Handle(s) are minted by several repositories; as listing them all would not be a viable option, to avoid losing them as PIDs, Handles bypass the PID authority filtering rule.
In all other cases, PIDs are be included in the graph as alternate Identifiers. In all other cases, PIDs are included in the graph as alternate Identifiers.
## Delegated authorities ## Delegated authorities
@ -32,7 +36,7 @@ assigns PIDs to their scientific products from a given PID minter.
This "selection" can be performed when the entities in the graph sharing the same identifier are grouped together. The list of the delegated authorities currently includes This "selection" can be performed when the entities in the graph sharing the same identifier are grouped together. The list of the delegated authorities currently includes
| Datasource delegated | Datasource delegating | Pid Type | | Datasource delegated | Datasource delegating | Pid Type |
|--------------------------------------|----------------------------------|-----------| |--------------------------------------|----------------------------------|----------|
| [Zenodo](https://zenodo.org) | [Datacite](https://datacite.org) | doi | | [Zenodo](https://zenodo.org) | [Datacite](https://datacite.org) | doi |
| [RoHub](https://reliance.rohub.org/) | [W3ID](https://w3id.org/) | w3id | | [RoHub](https://reliance.rohub.org/) | [W3ID](https://w3id.org/) | w3id |
@ -43,7 +47,7 @@ OpenAIRE assigns internal identifiers for each object it collects.
By default, the internal identifier is generated as `sourcePrefix::md5(localId)` where: By default, the internal identifier is generated as `sourcePrefix::md5(localId)` where:
* `sourcePrefix` is a namespace prefix of 12 chars assigned to the data source at registration time * `sourcePrefix` is a namespace prefix of 12 chars assigned to the data source at registration time
* `localid` is the identifier assigned to the object by the data source * `localΙd` is the identifier assigned to the object by the data source
After years of operation, we can say that: After years of operation, we can say that:
@ -63,12 +67,14 @@ When the record is collected from a source which is not authoritative for any ty
Currently, the following data sources are used as "PID authorities": Currently, the following data sources are used as "PID authorities":
| PID Type | Prefix (12 chars) | Authority | | PID Type | Prefix (12 chars) | Authority |
|-----------|------------------------|-----------------------------------------| |----------|-----------------------|-----------------------------------------|
| doi | `doi_________` | Crossref, Datacite, Zenodo | | doi | `doi_________` | Crossref, Datacite, Zenodo |
| pmc | `pmc_________` | Europe PubMed Central, PubMed Central | | pmc | `pmc_________` | Europe PubMed Central, PubMed Central |
| pmid | `pmid________` | Europe PubMed Central, PubMed Central | | pmid | `pmid________` | Europe PubMed Central, PubMed Central |
| arXiv | `arXiv_______` | arXiv.org e-Print Archive | | arXiv | `arXiv_______` | arXiv.org e-Print Archive |
| handle | `handle______` | any repository | | ena | `ena_________` | EMBL-EBI |
| pdb | `pdb_________` | EMBL-EBI |
| uniprot | `uniprot_____` | EMBL-EBI |
OpenAIRE also perform duplicate identification (see the [dedicated section for details](/data-provision/deduplication)). OpenAIRE also perform duplicate identification (see the [dedicated section for details](/graph-production-workflow/deduplication)).
All duplicates are **merged** together in a **representative record** which must be assigned a dedicated OpenAIRE identifier (i.e. it cannot have the identifier of one of the aggregated record). All duplicates are **merged** together in a **representative record** which must be assigned a [dedicated OpenAIRE identifier](/graph-production-workflow/deduplication/research-products#openaire-identifier-of-the-representative-record) (i.e. it cannot have the identifier of one of the aggregated record).

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@ -1,146 +0,0 @@
---
sidebar_position: 2
---
# Relationships
A relationship in the graph is represented by the following data type, which aims to model a directed edge between two nodes, providing information about the semantic of the relation, its provenance and validation.
---
## The `Relationship` object
### source
_Type: [Node](#the-node-object) &bull; Cardinality: ONE_
Represents the source node in the relation.
```json
"source": {
"id": "20|openorgs____::1cb75a3ad756e4c83e455e3e7347643b",
"type": "organization"
}
```
### target
_Type: [Node](#the-node-object) &bull; Cardinality: ONE_
Represents the target node in the relation.
```json
"target": {
"id": "10|doajarticles::022409068174087a003647ff46070f7f",
"type": "datasource"
}
```
### reltype
_Type: [RelType](#the-reltype-object) &bull; Cardinality: ONE_
Represent the semantics of the relation between two nodes of the graph.
```json
"reltype": {
"name": "provides",
"type": "provision"
}
```
### provenance
_Type: [Provenance](entities/other#provenance-1) &bull; Cardinality: ONE_
Indicates the process that produced (or provided) the information.
```json
"provenance": {
"provenance": "Harvested",
"trust":"0.900"
}
```
### validated
_Type: Boolean &bull; Cardinality: ONE_
Indicates weather or not the relation was validated.
```json
"validated": true
```
### validationDate
_Type: String &bull; Cardinality: ONE_
Indicates the validation date of the relation - applies only when the validated flag is set to true.
```json
"validationDate": "2022-09-02"
```
---
## The `Node` object
The Node data type contains the minimum information needed to identify a graph node, its identifier and entity type.
### id
_Type: String &bull; Cardinality: ONE_
OpenAIRE identifier of the node in the graph.
```json
"id": "10|doajarticles::022409068174087a003647ff46070f7f"
```
### type
_Type: String &bull; Cardinality: ONE_
Graph node type.
```json
"type": "datasource"
```
## The `RelType` object
The RelType data type models the semantic of the relationship among two nodes.
### type
_Type: String &bull; Cardinality: ONE_
Relation category, e.g. affiliation, citation, see table Relation typologies.
```json
"name": "provides"
```
### name
_Type: String &bull; Cardinality: ONE_
Further specifies the relation semantic, indicating the relation direction, e.g. Cites, isCitedBy.
```json
"type": "provision"
```
---
## Relationship types
The following table lists all the possible relation semantics found in the graph dump.
| # | Source entity type | Target entity type | Relation type | Relation name | Inverse relation name |
|:--:|:------------------:|:-------------------:|:-------------:|:---------------------------:|:----------------------------:|
| 1 | [Project](entities/project) | [Result](entities/result) | outcome | produces | isProducedBy |
| 2 | [Result](entities/result) | [Organization](entities/organization) | affiliation | hasAuthorInstitution | isAuthorInstitutionOf |
| 3 | [Result](entities/result) | [Result](entities/result) | similarity | isAmongTopNSimilarDocuments | HasAmongTopNSimilarDocuments |
| 4 | [Project](entities/project) | [Organization](entities/organization) | participation | isParticipant | hasParticipant |
| 5 | [Result](entities/result) | [Result](entities/result) | supplement | isSupplementTo | isSupplementedBy |
| 6 | [Result](entities/result) | [Result](entities/result) | relationship | isRelatedTo | isRelatedTo |
| 7 | [Data source](entities/data-source) | [Organization](entities/organization) | provision | provides | isProvidedBy |
| 8 | [Result](entities/result) | [Data source](entities/data-source) | provision | isHostedBy | hosts |
| 9 | [Result](entities/result) | [Data source](entities/data-source) | provision | isProvidedBy | provides |
| 10 | [Result](entities/result) | [Community](entities/community) | relationship | isRelatedTo | isRelatedTo |
| 11 | [Organization](entities/organization) | [Community](entities/community) | relationship | isRelatedTo | isRelatedTo |
| 12 | [Data source](entities/data-source) | [Community](entities/community) | relationship | isRelatedTo | isRelatedTo |
| 13 | [Project](entities/project) | [Community](entities/community) | relationship | isRelatedTo | isRelatedTo |

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@ -0,0 +1,109 @@
---
title: The Relationship object
---
# The `Relationship` object
A relationship in the Graph is represented with the data type presented in this page, which aims to model a directed edge between two nodes, providing information about its semantics, provenance and validation.
### source
_Type: String &bull; Cardinality: ONE_
OpenAIRE identifier of the node in the graph.
```json
"source": "openorgs____::1cb75a3ad756e4c83e455e3e7347643b"
```
### sourceType
_Type: String &bull; Cardinality: ONE_
Graph node type.
```json
"sourceType": "organization"
```
### target
_Type: String &bull; Cardinality: ONE_
OpenAIRE identifier of the node in the graph.
```json
"target": "doajarticles::022409068174087a003647ff46070f7f"
```
### targetType
_Type: String &bull; Cardinality: ONE_
Graph node type.
```json
"target": "datasource"
```
### relType
_Type: [RelType](#the-reltype-object) &bull; Cardinality: ONE_
Represent the semantics of the relationship between two nodes of the graph.
```json
"relType": {
"name": "provides",
"type": "provision"
}
```
### provenance
_Type: [Provenance](/data-model/entities/other#provenance-1) &bull; Cardinality: ONE_
Indicates the process that produced (or provided) the information.
```json
"provenance": {
"provenance": "Harvested",
"trust":"0.900"
}
```
### validated
_Type: Boolean &bull; Cardinality: ONE_
Indicates weather or not the relationship was validated.
```json
"validated": true
```
### validationDate
_Type: String &bull; Cardinality: ONE_
Indicates the validation date of the relationship - applies only when the validated flag is set to true.
```json
"validationDate": "2022-09-02"
```
---
## The `RelType` object
The RelType data type models the semantic of the relationship among two nodes.
### type
_Type: String &bull; Cardinality: ONE_
The relationship category, e.g. affiliation, citation. (see [relationship types](./relationship-types)).
```json
"name": "provides"
```
### name
_Type: String &bull; Cardinality: ONE_
Further specifies the relationship semantic, indicating the relationship direction, e.g. Cites, isCitedBy.
```json
"type": "provision"
```
---

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@ -0,0 +1,37 @@
# Relationship types
The following table lists all the possible relation semantics found in the Graph Dataset.
Note: the labels used to specify the semantic of the relationships are (for the large) inherited from the [DataCite metadata kernel](https://schema.datacite.org/meta/kernel-4.4/doc/DataCite-MetadataKernel_v4.4.pdf), which provides a description for them.
| # | Source entity type | Target entity type | Relation name / inverse | Provenance |
|:--:|:--------------------------------------:|:--------------------------------------:|:----------------------------------------------------------:|:-----------------------------------------------:|
| 1 | [Project](/data-model/entities/project) | [ResearchProduct](../../data-model/entities/research-product) | produces / isProducedBy | Harvested, Inferred by OpenAIRE, Linked by user |
| 2 | [Project](/data-model/entities/project) | [Organization](/data-model/entities/organization) | hasParticipant / isParticipant | Harvested |
| 3 | [Project](/data-model/entities/project) | [Community](/data-model/entities/community) | IsRelatedTo / IsRelatedTo | Linked by user |
| 4 | [ResearchProduct](../../data-model/entities/research-product) | [ResearchProduct](../../data-model/entities/research-product) | IsAmongTopNSimilarDocuments / HasAmongTopNSimilarDocuments | Inferred by OpenAIRE |
| 5 | [ResearchProduct](../../data-model/entities/research-product) | [ResearchProduct](../../data-model/entities/research-product) | IsSupplementTo / IsSupplementedBy | Harvested |
| 6 | [ResearchProduct](../../data-model/entities/research-product) | [ResearchProduct](../../data-model/entities/research-product) | IsRelatedTo / IsRelatedTo | Harvested, Inferred by OpenAIRE, Linked by user |
| 7 | [ResearchProduct](../../data-model/entities/research-product) | [ResearchProduct](../../data-model/entities/research-product) | IsPartOf / HasPart | Harvested |
| 8 | [ResearchProduct](../../data-model/entities/research-product) | [ResearchProduct](../../data-model/entities/research-product) | IsDocumentedBy / Documents | Harvested |
| 9 | [ResearchProduct](../../data-model/entities/research-product) | [ResearchProduct](../../data-model/entities/research-product) | IsObsoletedBy / Obsoletes | Harvested |
| 10 | [ResearchProduct](../../data-model/entities/research-product) | [ResearchProduct](../../data-model/entities/research-product) | IsSourceOf / IsDerivedFrom | Harvested |
| 11 | [ResearchProduct](../../data-model/entities/research-product) | [ResearchProduct](../../data-model/entities/research-product) | IsCompiledBy / Compiles | Harvested |
| 12 | [ResearchProduct](../../data-model/entities/research-product) | [ResearchProduct](../../data-model/entities/research-product) | IsRequiredBy / Requires | Harvested |
| 13 | [ResearchProduct](../../data-model/entities/research-product) | [ResearchProduct](../../data-model/entities/research-product) | IsCitedBy / Cites | Harvested, Inferred by OpenAIRE |
| 14 | [ResearchProduct](../../data-model/entities/research-product) | [ResearchProduct](../../data-model/entities/research-product) | IsReferencedBy / References | Harvested |
| 15 | [ResearchProduct](../../data-model/entities/research-product) | [ResearchProduct](../../data-model/entities/research-product) | IsReviewedBy / Reviews | Harvested |
| 16 | [ResearchProduct](../../data-model/entities/research-product) | [ResearchProduct](../../data-model/entities/research-product) | IsOriginalFormOf / IsVariantFormOf | Harvested |
| 17 | [ResearchProduct](../../data-model/entities/research-product) | [ResearchProduct](../../data-model/entities/research-product) | IsVersionOf / HasVersion | Harvested |
| 18 | [ResearchProduct](../../data-model/entities/research-product) | [ResearchProduct](../../data-model/entities/research-product) | IsIdenticalTo / IsIdenticalTo | Harvested |
| 19 | [ResearchProduct](../../data-model/entities/research-product) | [ResearchProduct](../../data-model/entities/research-product) | IsPreviousVersionOf / IsNewVersionOf | Harvested |
| 20 | [ResearchProduct](../../data-model/entities/research-product) | [ResearchProduct](../../data-model/entities/research-product) | IsContinuedBy / Continues | Harvested |
| 21 | [ResearchProduct](../../data-model/entities/research-product) | [ResearchProduct](../../data-model/entities/research-product) | IsDescribedBy / Describes | Harvested |
| 22 | [ResearchProduct](../../data-model/entities/research-product) | [Organization](/data-model/entities/organization) | hasAuthorInstitution / isAuthorInstitutionOf | Harvested, Inferred by OpenAIRE |
| 23 | [ResearchProduct](../../data-model/entities/research-product) | [Data source](/data-model/entities/data-source) | isHostedBy / hosts | Harvested, Inferred by OpenAIRE |
| 24 | [ResearchProduct](../../data-model/entities/research-product) | [Data source](/data-model/entities/data-source) | isProvidedBy / provides | Harvested |
| 25 | [ResearchProduct](../../data-model/entities/research-product) | [Community](/data-model/entities/community) | IsRelatedTo / IsRelatedTo | Harvested, Inferred by OpenAIRE, Linked by user |
| 26 | [Organization](/data-model/entities/organization) | [Community](/data-model/entities/community) | IsRelatedTo / IsRelatedTo | Linked by user |
| 27 | [Organization](/data-model/entities/organization) | [Organization](/data-model/entities/organization) | IsChildOf / IsParentOf | Linked by user |
| 28 | [Data source](/data-model/entities/data-source) | [Community](/data-model/entities/community) | IsRelatedTo / IsRelatedTo | Linked by user |
| 29 | [Data source](/data-model/entities/data-source) | [Organization](/data-model/entities/organization) | isProvidedBy / provides | Harvested |

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@ -1,5 +0,0 @@
---
sidebar_position: 1
---
# OpenAIRE compatible sources

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@ -1,7 +0,0 @@
# Usage counts
Usage counts cover the needs of content providers and consumers offering added value to assist them in reaching their goals.
They include metrics of usage activity of Open Access Repositories categorizing the data retrieved by country, number of downloads, number of views, number of repositories and all derivative quantitative open metrics, comprehensively.
You can find more information about the UsageCounts service [here](https://usagecounts.openaire.eu/).

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@ -1,3 +0,0 @@
# Merge by id
<span className="todo">TODO</span>

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@ -16,7 +16,7 @@ _Type: String &bull; Cardinality: ONE_
the OpenAIRE identifier of the data source the OpenAIRE identifier of the data source
```json ```json
"key":"10|openaire____::081b82f96300b6a6e3d282bad31cb6e2" "key":"openaire____::081b82f96300b6a6e3d282bad31cb6e2"
``` ```
### value ### value

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@ -6,7 +6,7 @@ sidebar_position: 1
# CommunityInstance # CommunityInstance
It is a subclass of [Instance](../../data-model/entities/result#instance) extended with information regarding the collection and hosting source for this materialization of the result. It is a subclass of [Instance](../../data-model/entities/research-product#instance) extended with information regarding the collection and hosting source for this materialization of the research product.
### hostedby ### hostedby
_Type: [CfHbKeyValue](./cfhb) &bull; Cardinality: ONE_ _Type: [CfHbKeyValue](./cfhb) &bull; Cardinality: ONE_
@ -16,7 +16,7 @@ Information about the source from which the instance can be viewed or downloaded
```json ```json
"hostedby": { "hostedby": {
"key": "10|issn___print::35ee75a5ad42581d604be113a8f56427", "key": "issn___print::35ee75a5ad42581d604be113a8f56427",
"value": "New Phytologist" "value": "New Phytologist"
}, },
@ -31,7 +31,7 @@ Information about the source from which the record has been collected
```json ```json
"collectedfrom": { "collectedfrom": {
"key": "10|openaire____::081b82f96300b6a6e3d282bad31cb6e2", "key": "openaire____::081b82f96300b6a6e3d282bad31cb6e2",
"value": "Crossref" "value": "Crossref"
} }
``` ```

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@ -6,7 +6,7 @@ sidebar_position: 1
# Context # Context
Information related to research initiative/community (RI/RC) related to the result. Information related to research initiative/community (RI/RC) related to the research product.
### code ### code
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
@ -31,7 +31,7 @@ Label of the RI/RC.
### provenance ### provenance
_Type: [Provenance](/data-model/entities/other#provenance-2) &bull; Cardinality: MANY_ _Type: [Provenance](/data-model/entities/other#provenance-2) &bull; Cardinality: MANY_
Why this result is associated to the RI/RC. Why this research product is associated to the RI/RC.
```json ```json

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@ -0,0 +1,140 @@
---
sidebar_position: 1
---
# Extended Research Product
It is a subclass of [ResearchProduct](../../data-model/entities/research-product) extended with information regarding projects (and funders), research communities/infrastructure and related data sources.
### projects
_Type: [Project](project.md) &bull; Cardinality: MANY_
List of projects (i.e. grants) that (co-)funded the production of the research products.
```json
"projects": [
{
"id": "corda__h2020::94c4a066401e22002c4811a301bb4655",
"code": "727929",
"acronym": "TomRes",
"title": "A NOVEL AND INTEGRATED APPROACH TO INCREASE MULTIPLE AND COMBINED STRESS TOLERANCE IN PLANTS USING TOMATO AS A MODEL",
"funder": {
"shortName": "EC",
"name": "European Commission",
"jurisdiction": "EU",
"fundingStream": "H2020"
},
"provenance": {
"provenance": "Harvested",
"trust": "0.900000000000000022"
},
"validated": {
"validationDate": "2021-0101",
"validatedByFunder": true
}
},
...
]
```
### context
_Type: [Context](./context) &bull; Cardinality: MANY_
Reference to relevant research infrastructure, initiative or communities (RI/RC) among those collaborating with OpenAIRE. Please see https://connect.openaire.eu that are publicly visible.
```json
"context":[
{
"code":"sdsn-gr",
"label":"SDSN - Greece",
"provenance":[
{
"provenance":"Inferred by OpenAIRE",
"trust":"0.9"
}
]
},
...
]
```
### collectedfrom
_Type: [CfHbKeyValue](./cfhb) &bull; Cardinality: MANY_
Information about the sources from which the record has been collected.
```json
"collectedfrom":[
{
"key":"openaire____::081b82f96300b6a6e3d282bad31cb6e2",
"value":"Crossref"
},
...
]
```
### instance
_Type: [CommunityInstance](./communityInstance) &bull; Cardinality: MANY_
Information about the source from which the instance can be viewed or downloaded.
```json
"instance": [
{
"license": "http://doi.wiley.com/10.1002/tdm_license_1.1",
"accessright": {
"code": "c_16ec",
"label": "RESTRICTED",
"scheme": "http://vocabularies.coar-repositories.org/documentation/access_rights/",
"openAccessRoute": null
},
"type": "Article",
"url": [
"https://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1111%2Fnph.15014",
"http://onlinelibrary.wiley.com/wol1/doi/10.1111/nph.15014/fullpdf",
"http://dx.doi.org/10.1111/nph.15014"
],
"publicationdate": "2018-02-09",
"refereed": "UNKNOWN",
"hostedby": {
"key": "issn___print::35ee75a5ad42581d604be113a8f56427",
"value": "New Phytologist"
},
"collectedfrom": {
"key": "openaire____::081b82f96300b6a6e3d282bad31cb6e2",
"value": "Crossref"
}
},
...
]
```

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@ -9,7 +9,7 @@ sidebar_position: 1
# Project # Project
The information about the projects related to the result. The information about the projects related to a research product.
### id ### id
@ -22,7 +22,7 @@ Main entity identifier, created according to the [OpenAIRE entity identifier and
```json ```json
"id": "40|corda__h2020::70ea22400fd890c5033cb31642c4ae68" "id": "corda__h2020::70ea22400fd890c5033cb31642c4ae68"
``` ```
@ -99,7 +99,7 @@ Information about the funder funding the project.
_Type [Provenance](../../data-model/entities/other#provenance-2) &bull; Cardinality: ONE_ _Type [Provenance](../../data-model/entities/other#provenance-2) &bull; Cardinality: ONE_
The reason why the project is associated to the result. The reason why the project is associated to the research product.
```json ```json
@ -119,7 +119,7 @@ The reason why the project is associated to the result.
_Type [Validated](validated.md) &bull; Cardinality: ONE_ _Type [Validated](validated.md) &bull; Cardinality: ONE_
Specifies it the association between the project and the result was validated. Specifies whether the association between the project and the research product was validated.
```json ```json

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# Validated # Validated
Information about the validtion of the association between the result and the funding information. Information about the validtion of the association between the research product and the funding information.
### validationDate ### validationDate
@ -15,7 +15,7 @@ Information about the validtion of the association between the result and the fu
_Type: String &bull; Cardinality: ONE_ _Type: String &bull; Cardinality: ONE_
When OpenAIRE collected the association between the funding and the result from an authoritative source (i.e. Sygma). When OpenAIRE collected the association between the funding and the research product from an authoritative source (i.e. Sygma).
```json ```json

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@ -2,5 +2,15 @@
sidebar_position: 2 sidebar_position: 2
--- ---
# Beginners kit # Beginner's kit
The large size of the OpenAIRE Graph is a major impediment for beginners to familiarise with the underlying data model and explore its contents.
Working with the Graph in its full size typically requires access to a huge distributed computing infrastructure which cannot be easily accessible to everyone.
[The OpenAIRE Beginners Kit](https://doi.org/10.5281/zenodo.7490191) aims to address this issue. It consists of two components:
<!-- :::caution
This version is not accompanied with public dataset files, hence the files in this section are based on [v6.0.0](/docs/6.0.0/) of the Graph. The current data are only exposed via the [OpenAIRE Graph API](https://graph.openaire.eu/develop/) and added-value services that are built on top of this version of the Graph (e.g., the [OpenAIRE Explore](https://explore.openaire.eu/)). If you are interested to get bulk access to our latest data, please contact us via our [helpdesk](https://graph.openaire.eu/support).
::: -->
* A subset of the Graph composed of the research products published between 2022-06-29 and 2022-12-29, all the entities connected to them and the respective relationships.
* A Zeppelin notebook that demonstrates how you can use PySpark to analyse the Graph and get answers to some interesting research questions. A guide to Apache Zeppelin can be found [here](https://docs.cloudera.com/HDPDocuments/HDP2/HDP-2.6.5/bk_zeppelin-component-guide/content/ch_overview.html).

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@ -2,26 +2,28 @@
sidebar_position: 1 sidebar_position: 1
--- ---
# Full graph dump # Full graph dataset
You can download the full OpenAIRE Research Graph Dump as well as its schema from the following links:
You can download the full OpenAIRE Graph Dataset as well as its schema from the following links:
<!-- :::caution
This version is not accompanied with public dump files, hence the files in this section are based on [v6.0.0](/docs/6.0.0/) of the Graph. The current data are only exposed via the [OpenAIRE Graph API](https://graph.openaire.eu/develop/) and added-value services that are built on top of this version of the Graph (e.g., the [OpenAIRE Explore](https://explore.openaire.eu/)). If you are interested to get bulk access to our latest data, please contact us via our [helpdesk](https://graph.openaire.eu/support).
::: -->
Dataset: https://doi.org/10.5281/zenodo.3516917 Dataset: https://doi.org/10.5281/zenodo.3516917
Schema: https://doi.org/10.5281/zenodo.4238938 Schema: https://doi.org/10.5281/zenodo.4238938
The schema used to dump this dataset mirrors the one described in the [Data Model](../data-model). The schema used to create this dataset mirrors the one described in the [Data Model](/data-model).
This dataset is licensed under a Creative Commons Attribution 4.0 International License. This dataset is licensed under a Creative Commons Attribution 4.0 International License.
It is composed of several files so that you can download the parts you are interested into. The files are named after the entity they store (i.e. publication, dataset). Each file is at most 10GB and it is It is composed of several files so that you can download the parts you are interested into. The files are named after the entity they store (i.e. publication, dataset). Each file is at most 10GB and it is
a tar archive containing gz files, each with one json per line. a tar archive containing gz files, each with one json per line.
## How to acknowledge this work ## How to acknowledge this work
Open Science services are open and transparent and survive thanks to your active support and to the visibility and reward they gather. If you use one of the [OpenAIRE Research Graph dumps](https://doi.org/10.5281/zenodo.3516917) for your research, please provide a proper citation following the recommendation that you find on the dump's Zenodo page or as provided below. Open Science services are open and transparent and survive thanks to your active support and to the visibility and reward they gather. If you use one of the [OpenAIRE Graph datasets](https://doi.org/10.5281/zenodo.3516917) for your research, please provide a proper citation following the recommendation that you find on the dataset's Zenodo page or as provided below.
:::note How to cite :::note How to cite
Manghi P., Atzori C., Bardi A., Baglioni M., Schirrwagen J., Dimitropoulos H., La Bruzzo S., Foufoulas I., Mannocci A., Horst M., Czerniak A., Kiatropoulou K., Kokogiannaki A., De Bonis M., Artini M., Ottonello E., Lempesis A., Ioannidis A., Manola N., Principe P. (2022). "OpenAIRE Research Graph Dump", *Dataset*, Zenodo. [doi:10.5281/zenodo.3516917](https://doi.org/10.5281/zenodo.3516917) ([BibTex](/bibtex/OpenAIRE_Research_Graph_dump.bib)) Manghi P., Atzori C., Bardi A., Baglioni M., Schirrwagen J., Dimitropoulos H., La Bruzzo S., Foufoulas I., Mannocci A., Horst M., Czerniak A., Iatropoulou K., Kokogiannaki A., De Bonis M., Artini M., Lempesis A., Ioannidis A., Manola N., Principe P., Vergoulis T., Chatzopoulos S., Pierrakos D. (2022). "OpenAIRE Research Graph Dataset", *Dataset*, Zenodo. [doi:10.5281/zenodo.3516917](https://doi.org/10.5281/zenodo.3516917) ([BibTex](/bibtex/OpenAIRE_Research_Graph_dataset.bib))
::: :::
Please also consider citing [other relevant research products](/publications#relevant-research-products) that can be of interest. Please also consider citing [other relevant research products](/publications#relevant-research-products) that can be of interest.

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In this page, we list other related datasets; please refer to their respective schema definitions for the data model they follow. In this page, we list other related datasets; please refer to their respective schema definitions for the data model they follow.
## The dump of ScholeXplorer ## The dataset of ScholeXplorer
Dataset: https://doi.org/10.5281/zenodo.6338616 Dataset: https://zenodo.org/doi/10.5281/zenodo.1200252
Schema (Scholix version 3): https://doi.org/10.5281/zenodo.1120275 Schema (Scholix version 3): https://doi.org/10.5281/zenodo.1120275
Schema (Scholix version 4): https://doi.org/10.5281/zenodo.6351557 Schema (Scholix version 4): https://doi.org/10.5281/zenodo.6351557
This dataset is licensed under a CC0 1.0 Universal (CC0 1.0) Public Domain Dedication. This dataset is licensed under a CC0 1.0 Universal (CC0 1.0) Public Domain Dedication.
The dataset contains the GZ-compressed dump of the Scholix links exposed by the OpenAIRE ScholeXplorer service. The dataset contains the GZ-compressed dataset of the Scholix links exposed by the OpenAIRE ScholeXplorer service.
## The OpenAIRE LOD dump ## The OpenAIRE LOD dataset
Dataset (RDF dump): https://doi.org/10.5281/zenodo.609943 :::caution
The OpenAIRE LOD dataset has been discontinued. The SPARQL Endpoint is no longer supported but old LOD datasets can be found in the link below.
:::
LOD Ontology: http://lod.openaire.eu/vocab Dataset (RDF): https://doi.org/10.5281/zenodo.609943
SPARQL Endpoint: http://lod.openaire.eu/sparql <!-- LOD Ontology: http://lod.openaire.eu/vocab
SPARQL Endpoint: http://lod.openaire.eu/sparql -->
The OpenAIRE Linked Open Data (LOD) Services and their integration with the OpenAIRE information space have been released as a beta version. The LOD exporting process started with a specification of the OpenAIRE data model as an RDF vocabulary, and then mapping of the OpenAIRE data to the graph-based RDF data model. To interlink the OpenAIRE data with related data on the Web, we have identified a list of potential datasets to interlinked with, including the DBpedia dataset extracted from Wikipedia and the publication databases DBLP and CiteSeer. The OpenAIRE Linked Open Data (LOD) Services and their integration with the OpenAIRE information space have been released as a beta version. The LOD exporting process started with a specification of the OpenAIRE data model as an RDF vocabulary, and then mapping of the OpenAIRE data to the graph-based RDF data model. To interlink the OpenAIRE data with related data on the Web, we have identified a list of potential datasets to interlinked with, including the DBpedia dataset extracted from Wikipedia and the publication databases DBLP and CiteSeer.
Please refer [here](http://lod.openaire.eu/documentation) for more details on the LOD documentation. <!-- Please refer [here](http://lod.openaire.eu/documentation) for more details on the LOD documentation. -->

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@ -2,67 +2,69 @@
sidebar_position: 3 sidebar_position: 3
--- ---
# Sub-graph dumps # Sub-graph datasets
In order to facilitate users, different dumps are available under the Zenodo community called [OpenAIRE Research Graph](https://zenodo.org/communities/openaire-research-graph). In order to facilitate users, different datasets are available under the Zenodo community called [OpenAIRE Graph](https://zenodo.org/communities/openaire-research-graph).
This page lists all alternative dumps currently available. This page lists all alternative datasets currently available.
<!-- :::caution
This version is not accompanied with public dataset files, hence the files in this section are based on [v6.0.0](/docs/6.0.0/) of the Graph. The current data are only exposed via the [OpenAIRE Graph API](https://graph.openaire.eu/develop/) and added-value services that are built on top of this version of the Graph (e.g., the [OpenAIRE Explore](https://explore.openaire.eu/)). If you are interested to get bulk access to our latest data, please contact us via our [helpdesk](https://graph.openaire.eu/support).
::: -->
## The OpenAIRE COVID-19 dataset
## The OpenAIRE COVID-19 dump Dataset: https://doi.org/10.5281/zenodo.3980490
Dataset: https://doi.org/10.5281/zenodo.6638745 Schema: https://doi.org/10.5281/zenodo.3974225
Schema: https://doi.org/10.5281/zenodo.6372977
This dataset is licensed under a Creative Commons Attribution 4.0 International License. This dataset is licensed under a Creative Commons Attribution 4.0 International License.
It contains metadata records of publications, research data, software and projects on the topic of Corona Virus and COVID-19. It contains metadata records of publications, research data, software and projects on the topic of Corona Virus and COVID-19.
This dump is part of the activities of OpenAIRE to support the fight against COVID-19 together with the OpenAIRE COVID-19 Gateway. This dataset is part of the activities of OpenAIRE to support the fight against COVID-19 together with the OpenAIRE COVID-19 Gateway.
The dump consists of a tar archive containing gzip files with one json per line. Please refer [here](#alternative-sub-graph-data-model) for details on the data model of this dump. The dataset consists of a tar archive containing gzip files with one json per line. Please refer [here](#alternative-sub-graph-data-model) for details on the data model of this dataset.
## The dump of funded products ## The dataset of funded products
Dataset: https://doi.org/10.5281/zenodo.6634431 Dataset: https://doi.org/10.5281/zenodo.4559725
Schema: https://doi.org/10.5281/zenodo.6372977 Schema: https://doi.org/10.5281/zenodo.3974225
This dataset is licensed under a Creative Commons Attribution 4.0 International License. This dataset is licensed under a Creative Commons Attribution 4.0 International License.
It contains metadata records of research products (research literature, data, software, other types of research products) with funding It contains metadata records of research products (research literature, data, software, other types of research products) with funding
information available in the OpenAIRE Research Graph. Records are grouped by funder in a dedicated archive file. Each tar archive contains information available in the OpenAIRE Graph. Records are grouped by funder in a dedicated archive file. Each tar archive contains
gzip files, each with one json record per line. The model of this dump differs from the one of the whole graph. gzip files, each with one json record per line. The model of this dataset differs from the one of the whole graph.
Please refer [here](#alternative-sub-graph-data-model) for details on the data model of this dump. Please refer [here](#alternative-sub-graph-data-model) for details on the data model of this dataset.
## The dump of delta projects ## The dataset of delta projects
Dataset: https://doi.org/10.5281/zenodo.7119633 Dataset: https://doi.org/10.5281/zenodo.6419021
Schema: https://doi.org/10.5281/zenodo.4238938 Schema: https://doi.org/10.5281/zenodo.4238938
This dataset is licensed under a Creative Commons Attribution 4.0 International License. This dataset is licensed under a Creative Commons Attribution 4.0 International License.
It contains the metadata records of projects collected by OpenAIRE in a given time frame. Usually one deposition of collected projects is done for each release of the OpenAIRE Research Graph It contains the metadata records of projects collected by OpenAIRE in a given time frame. Usually one deposition of collected projects is done for each release of the OpenAIRE Graph
The deposition is one tar archive containing gzip files, each with one json record per line. The deposition is one tar archive containing gzip files, each with one json record per line.
## The dumps about research communities, initiatives and infrastructures ## The datasets about research communities, initiatives and infrastructures
Dataset: https://doi.org/10.5281/zenodo.6638478 Dataset: https://doi.org/10.5281/zenodo.3974604
Schema: https://doi.org/10.5281/zenodo.6372977 Schema: https://doi.org/10.5281/zenodo.3974225
This dataset is licensed under a Creative Commons Attribution 4.0 International License. This dataset is licensed under a Creative Commons Attribution 4.0 International License.
The dataset contains one file per community/initiative/infrastructure collaborating with OpenAIRE. Check out also their community gateways on The dataset contains one file per community/initiative/infrastructure collaborating with OpenAIRE. Check out also their community gateways on
CONNECT. Each file is a tar archive containing gzip files with one json per line. The only communities/research initiative/infrastructure we dump are those visible to everyone. CONNECT. Each file is a tar archive containing gzip files with one json per line. The only communities/research initiative/infrastructure included are publicly visible ones.
The model of this dump differs from the one of the whole graph. The model of this dataset differs from the one of the whole graph.
Please refer [here](#alternative-sub-graph-data-model) for details on the data model of this dump. Please refer [here](#alternative-sub-graph-data-model) for details on the data model of this dataset.
--- ---
## Alternative sub-graph data model ## Alternative sub-graph data model
It should be noted that the dumps for research communities, infrastructures, and products related to projects do not strictly follow the main data model of the OpenAIRE Research Graph. In particular, they differ in the following: It should be noted that the datasets for research communities, infrastructures, and products related to projects do not strictly follow the main data model of the OpenAIRE Graph. In particular, they differ in the following:
* only research products are dumped (no relations, and entities different from results) * only research products are included (no relations or other entities)
* the dumped results are extended with information that can be inferred in the whole dump namely: * the research products are extended with information that can be inferred in the whole dataset namely:
* funding information if present * funding information if present
* associated research community/infrastructure * associated research community/infrastructure
* associated data sources * associated data sources
So they have just one entity type, that is the [Extended Result](alternative-model/extendedresult.md). So they have just one entity type, that is the [Extended Research Product](./alternative-model/extended-research-product.md).

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{
"label": "Graph production workflow",
"position": 6,
"link": {
"type": "doc",
"id": "graph-production-workflow"
}
}

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---
sidebar_position: 1
---
# Aggregation
OpenAIRE materializes an open, participatory research graph (the OpenAIRE Graph) where products of the research life-cycle (e.g. scientific literature, research data, project, software) are semantically linked to each other and carry information about their access rights (i.e. if they are Open Access, Restricted, Embargoed, or Closed) and the sources from which they have been collected and where they are hosted. The OpenAIRE Graph is materialised via a set of autonomic, orchestrated workflows operating in a regimen of continuous data aggregation and integration. [1]
## What does OpenAIRE collect?
OpenAIRE aggregates metadata records describing objects of the research life-cycle from content providers compliant to the [OpenAIRE guidelines](https://guidelines.openaire.eu/) and from entity registries (i.e. data sources offering authoritative lists of entities, like [OpenDOAR](https://v2.sherpa.ac.uk/opendoar/), [re3data](https://www.re3data.org/), [DOAJ](https://doaj.org/), and various funder databases). After collection, metadata are transformed according to the OpenAIRE internal metadata model, which is used to generate the final OpenAIRE Graph, accessible from the [OpenAIRE EXPLORE portal](https://explore.openaire.eu) and the [APIs](https://graph.openaire.eu/develop/).
The transformation process includes the application of cleaning functions whose goal is to ensure that values are harmonised according to a common format (e.g. dates as YYYY-MM-dd) and, whenever applicable, to a common controlled vocabulary. The controlled vocabularies used for cleansing are accessible at [api.openaire.eu/vocabularies](https://api.openaire.eu/vocabularies/). Each vocabulary features a set of controlled terms, each with one code, one label, and a set of synonyms. If a synonym is found as field value, the value is updated with the corresponding term.
In addition, the OpenAIRE Graph is extended with other relevant scholarly communication sources that need special handling, either because they do not strictly follow the OpenAIRE Guidelines or due to the vast amount of data of data they offer; these include Crossref, ORCID, Microsoft Academic Graph, Unpaywall).
<p align="center">
<img loading="lazy" alt="Aggregation" src={require('../../assets/img/aggregation.png').default} width="100%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>
The OpenAIRE aggregation system collects information about objects of the research life-cycle compliant to the [OpenAIRE acquisition policy](https://www.openaire.eu/content-acquisition-policy) from [different types of data sources](https://explore.openaire.eu/search/find/dataproviders):
1. Scientific literature metadata and full-texts from institutional and thematic repositories, CRIS (Common Research Information Systems), Open Access journals and publishers;
2. Dataset metadata from data repositories and data journals;
3. Scientific literature, data and software metadata from Zenodo;
4. Metadata about data sources, organizations, projects, and funding programs from entity registries, i.e. authoritative sources such as CORDA and other funder databases for projects, OpenDOAR for publication repositories, re3data for data repositories, DOAJ for Open Access journals;
5. Metadata of open source research software from software repositories and SoftwareHeritge
6. Metadata about other types of research products, like workflow, protocols, methods, research packages
Relationships between objects are collected from the data sources, but also automatically detected by [inference algorithms](https://www.openaire.eu/blogs/text-mining-services-in-openaire-1) and added by authenticated users, who can insert links between literature, datasets, software and projects via [the “Link” procedure available from the OpenAIRE explore portal](https://explore.openaire.eu). More information about the linking functionality can be found [here](https://www.openaire.eu/linking).
## What kind of data sources are in OpenAIRE?
Objects and relationships in the OpenAIRE Graph are extracted from information packages, i.e. metadata records, collected from data sources of the following kinds:
- *Literature, Institutional and thematic repositories*: Information systems where scientists upload the bibliographic metadata and full-texts of their articles, due to obligations from their organization or due to community practices (e.g. ArXiv, Europe PMC);
- *Open Access Publishers and journals*: Information system of open access publishers or relative journals, which offer bibliographic metadata and PDFs of their published articles;
- *Data archives*: Information systems where scientists deposit descriptive metadata and files about their research data (also known as scientific data, datasets, etc.).;
- *Hybrid repositories/archives*: information systems where scientists deposit metadata and file of any kind of scientific products, incuding scientific literature, research data and research software (e.g. Zenodo)
- *Aggregator services*: Information systems that collect descriptive metadata about publications or datasets from multiple sources in order to enable cross-data source discovery of given research products. Examples are DataCite, BASE, DOAJ;
- *Entity Registries*: Information systems created with the intent of maintaining authoritative registries of given entities in the scholarly communication, such as OpenDOAR for the institutional repositories, re3data for the data repositories, CORDA and other funder databases for projects and funding information;
- *CRIS*: Information systems adopted by research and academic organizations to keep track of their research administration records and relative research products; examples of CRIS content are articles or datasets funded by projects, their principal investigators, facilities acquired thanks to funding, etc..
- *Research Graphs*: services that maintain an information space of (possibly interlinked) scholalrly communication objects. Examples are CrossRef, ScholeXplorer and OpenAIRE itself.
## How does OpenAIRE collect metadata records?
OpenAIRE collects metadata records describing objects of the research life-cycle from content providers compliant to the OpenAIRE guidelines and from entity registries (i.e. data sources offering authoritative lists of entities, like OpenDOAR, re3data, DOAJ, and funder databases).
The OpenAIRE aggregator collects metadata records in the majority of cases via [OAI-PMH](https://www.openarchives.org/pmh/), but also supports other standard exchange protocols like FTP(S), SFTP, and some RESTful API.
The whole list of available and used collectors could be found in the [RedMine Wiki - API Protocols](https://support.openaire.eu/projects/openaire/wiki/API_protocols)
For additional details about the aggregation workflows, please refer to [2].
## References
[1] Manghi, P., Artini, M., Atzori, C., Bardi, A., Mannocci, A., La Bruzzo, S., Candela, L., Castelli, D. and Pagano, P. (2014), “The D-NET software toolkit: A framework for the realization, maintenance, and operation of aggregative infrastructures”, Program: electronic library and information systems, Vol. 48 No. 4, pp. 322-354. [doi:10.1108/prog-08-2013-0045](http://doi.org/10.1108/prog-08-2013-0045)
[2] Atzori, C., Bardi, A., Manghi, P., & Mannocci, A. (2017, January). "The OpenAIRE workflows for data management". In Italian Research Conference on Digital Libraries (pp. 95-107). Springer, Cham. [doi:10.1007/978-3-319-68130-6_8](https://doi.org/10.1007/978-3-319-68130-6_8)

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---
sidebar_position: 1
---
# OpenAIRE compatible sources
The OpenAIRE aggregator collects metadata records from content providers compliant to the OpenAIRE guidelines.
The OpenAIRE Guidelines help repository managers expose publications, datasets and CRIS metadata via the OAI-PMH protocol in order to integrate with OpenAIRE infrastructure.
You can find more information in https://guidelines.openaire.eu/en/latest/

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# Crossref & Unpaywall
This section describes the procedure used to integrate the contents from [Crossref](https://www.crossref.org) and [Unpaywall](https://unpaywall.org) in the OpenAIRE Graph.
## Data acquisition
The dataset containing all the Crossref records is obtained via a complete data dump on a monthly basis.
The Unpaywall dataset is no longer updated anymore but its latest snapshot (Dec 2021) is used to enrich the Crossref contents.
## Process
In the following we describe the process applied to the Crossref & the Unpaywall contents.
### Crossref filtering
Records in Crossref are ruled out according to the following criteria
* have blank title, examples:
* `10.1093/rheumatology/41.7.837`
* `10.1093/qjmed/95.7.430`
* `10.1371/journal.pone.0171434.g005`
* have one of the following publishers: `"Test accounts"`, `"CrossRef Test Account"`
* Examples from https://api.crossref.org/works?query.publisher-name=%22Test%20accounts%22
* `10.1007/bf00344543`
* `10.1007/bf00186154`
* `10.1306/64ed947a-1724-11d7-8645000102c1865d`
* have authors matching the following invalid names: `",", "none none", "none, none", "none &na;", "(:null)", "test test test", "test test", "test", "&na; &na"`
* Examples for `"none"` author from https://api.crossref.org/works?query.author=%22none%22
* `10.4007/annals.2016.184.3.11`
* `10.4007/annals.2012.176.1.6`
* `10.2172/6393585`
* Examples for `"test"` author from https://api.crossref.org/works?query.author=%22test%22
* `10.5116/ijme.54ca.a5ae`
* `10.5755/j01.ss.71.2.544`
* `10.5755/j01.ee.22.2.319`
* have `"Addie Jackson"` as author and `"Elsevier BV"` as publisher (empirically we say they are test records)
* Examples from https://api.crossref.org/works?query.author=Addie+Jackson&query.publisher-name=%22Elsevier%20BV%22
* `10.2139/ssrn.2082156`
* `10.2139/ssrn.2202300`
* `10.2139/ssrn.2255657`
* have not one of the following values in the field `type` : `"book-section"`, `"book"`, `"book-chapter"`, `"book-part"`, `"book-series"`, `"book-set"`, `"book-track"`, `"edited-book"`, `"reference-book"`, `"monograph"`, `"journal-article"`, `"dissertation"`, `"other"`, `"peer-review"`, `"proceedings"`, `"proceedings-article"`, `"reference-entry"`, `"report"`, `"report-series"`, `"standard"`, `"standard-series"`, `"posted-content"`, `"dataset"`,
* Example:
* `10.1371/journal.pone.0171434.g005`
* `10.7554/elife.21052.049`
* `10.1371/journal.pcbi.1005379.s006`
Records with `type=dataset` are mapped into OpenAIRE research products of type dataset. All others are mapped as OpenAIRE research products of type publication.
### Mapping Crossref properties into the OpenAIRE Graph
Properties in OpenAIRE research products are set based on the logic described in the following table:
| OpenAIRE Research Product field path | Crossref path(s) | Notes |
|----------------------------------------|--------------------------------------------------------------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| `id` | `doi` | id in the form `doi_________::md5(doi)` |
| `dateofcollection` | `indexed.datetime` | |
| `lastupdatetimestamp` | `indexed.timestamp` | |
| `type` | `type` | Using the **_dnet:result_typologies_** vocabulary, we look up the `instance.type` synonym to generate one of the following main entities: <ul><li>`publication`</li> <li>`dataset`</li></ul> |
| `originalId` | `doi, clinical-trial-number, alternative-id` | |
| `pid` | | The scheme tells the type of PID, the value contains the actual value |
| `pid.scheme` | | Default value: doi |
| `pid.value` | `doi` | The doi is normalised and lower-cased |
| `maintitle` | `title` | |
| `subtitle` | `subtitle` | |
| `author` | `author` | if available the sequence is mapped to rank and the ORCID is also mapped |
| `author.name` | `author.given` | |
| `author.surname` | `author.family` | |
| `author.fullname` | `author.given author.family` | |
| `author.rank` | | based on the order, starts from 1 |
| `author.pid` | | only if the ORCID is available |
| `author.pid.id.scheme` | | Default `'pending_orcid'` (meaning that it is not an id confirmed by ORCID) |
| `author.pid.id.value` | `author.ORCID` | |
| `author.pid.provenance.provenance` | | Default 'Harvested' |
| `author.pid.provenance.trust` | | Default '0.9' |
| `description` | `abstract` | |
| `subject` | `subject` | with `classid='keywords'`, i.e. no controlled vocabularies for Crossref subjects |
| `publicationdate` | `issued.datetime` or, if not available, `created.datetime` | |
| `publisher` | `publisher` | |
| `source` | `source` | only if the record is not of type `book` |
| `source` | concatenation of `container-title.head` + `"ISBN: "` + `ISBN.head` | only if the record is of type `book` |
| `container` | | It is set only for publications with information about the journal it was published in. |
| `container.name` | `container-title.head` | |
| `container.issnOnline` | `issn-type.value` | if `issn-type.type='electronic'` |
| `container.issnPrinted` | `issn-type.value` | if `issn-type.type='print'` |
| `container.vol` | `volume` | |
| `container.sp` | `page` | before `'-'` |
| `container.ep` | `page` | after `'-'` |
| `instance` | | One instance is created with the DOI URL |
| `instance.accessright` | | Values in `instance.accessright.code` and `instance.accessright.label` are set based on license and dateofacceptance:<br/>- `UNKNOWN`: if the license is blank<br/>- `OPEN ACCESS`: if the license is a CC license or an ACS license or an APA license (considered OPEN also by Unpaywall, see [Unpaywall FAQ](https://support.unpaywall.org/support/solutions/articles/44002063718-what-is-an-oa-license-) for details) or if OUP license, but only after 12 months from the publication date<br/>- `EMBARGO`: OUP license, before 12 months from the publication date<br/>- `CLOSED`: if there is a license not covered by the previous cases |
| `instance.accessright.code` | | Code from the [COAR vocabulary for access right](http://vocabularies.coar-repositories.org/documentation/access_rights/) |
| `instance.accessright.label` | | One of: `OPEN`, `RESTRICTED`, `CLOSED`, `EMBARGO` |
| `instance.accessright.scheme` | | Scheme that defines the code and label, i.e. the URL to the [COAR vocabulary for access right](http://vocabularies.coar-repositories.org/documentation/access_rights/) |
| `instance.accessright.openAccessRoute` | | only if `instance.accessright.value = 'OPEN ACCESS'`. Default is `hybrid`. The route is fixed in subsequent phases of DOIBoost, namely when intersecting with Unpaywall and patching the hostedby via DOAJ and the Gold-ISSN list. |
| `instance.license` | `license.URL ` | If there is a `license.content-version='vor'`, then this is used. Otherwise the first license entry is used. |
| `instance.pid` | | The scheme tells the type of PID, the value contains the actual value |
| `instance.pid.scheme` | | Default value: `doi` |
| `instance.pid.value` | `doi` | The doi is normalised and lower-cased |
| `instance.publicationdate` | `issued.datetime` or, if not available, `created.datetime` | |
| `instance.refereed` | | set to `peerReviewed` only if `relation.has-review.id` is not empty, `UNKNOWN` otherwise. |
| `instance.type` | `subtype` | mapped using the [OpenAIRE vocabulary for research products typologies](https://api.openaire.eu/vocabularies/dnet:result_typologies) |
| `instance.url` | `doi` | Full URL of the DOI |
All other fields of the Json schema not mentioned in the table contain empty values.
All the records from Crossref are related to the datasource with `name=Crossref` and `id=openaire____::081b82f96300b6a6e3d282bad31cb6e2`
Possible improvements:
* map `clinical-trial-number` and `alternative-id` in `alternateIdentifiers`?
* Verify if Crossref has a property for `language`, `country`, `container.issnLinking`, `container.iss`, `container.edition`, `container.conferenceplace` and `container.conferencedate`
* Different approach to set the `refereed` field and improve its coverage?
### Map Crossref links to projects/funders
Links to funding available in Crossref are mapped as funding relationships (`ResearchProduct -- isProducedBy -- Project`) applying the following mapping:
| Funder | Grant code | Link to |
|----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|------------------------------------------------------------------------------------------|-----------------------------------------------------------------------------------------------------------------------------------------------------|
| DOI: `{10.13039/100010663, 10.13039/100010661, 10.13039/501100007601, 10.13039/501100000780, 10.13039/100010665}` or name: `'European Unions Horizon 2020 research and innovation program'` | series of `4-9` digits in `award` | Link to H2020 project |
| DOI: `{10.13039/100011199, 10.13039/100004431, 10.13039/501100004963, 10.13039/501100000780}` | series of `4-9` digits in `award` | Link to FP7 project |
| DOI: `10.13039/501100000781` OR name: `'European Union's'` | series of `4-9` digits in `award` | Link to FP7 or H2020 project |
| DOI: `10.13039/100000001` | `award` | Link to NSF project |
| DOI: `10.13039/501100001665` OR name: `{'The French National Research Agency (ANR)', 'The French National Research Agency'}` | `award` | Link to ANR project |
| DOI: `10.13039/501100002341` | `award` | Link to Academy of Finland project |
| DOI: `10.13039/501100001602` | `award`, removing the initial 'SFI' if present | Link to SFI project |
| DOI: `10.13039/501100000923` | `award` | Link to ARC project |
| DOI: `10.13039/501100000038` | `award` ignore: we cannot map the project codes in Crossref to project codes in OpenAIRE | Link to NSERC (`unidentified` project) |
| DOI: `10.13039/501100000155` | `award` ignore: we cannot map the project codes in Crossref to project codes in OpenAIRE | Link to SSHRC (`unidentified` project) |
| DOI: `10.13039/501100000024` | `award` ignore: we cannot map the project codes in Crossref to project codes in OpenAIRE | Link to CIHR (`unidentified` project) |
| DOI: `10.13039/501100002848` OR name :`'CONICYT, Programa de Formación de Capital Humano Avanzado'` | `award` | Link to CONICYT project |
| DOI: `10.13039/501100003448` | series of `4-9` digits in award | Link to GSRT project |
| DOI: `10.13039/501100010198` | `award` | Link to SGOV project |
| DOI: `10.13039/501100004564` | series of `4-9` digits in award | Link to MESTD project |
| DOI: `10.13039/501100003407` | `award` | Link to MIUR project. Since OpenAIRE has a small subset of MIUR projects, a link to the MIUR funder (`unidentified`<br/> project) is also generated |
| DOI: `{10.13039/501100006588, 10.13039/501100004488}` | `award`, removing `'Project No'` and `'HRZZ'` prefix, if present | Link to HRZZ or MZOS project |
| DOI: `10.13039/501100006769` | `award` | Link to Russian Science Foundation project |
| DOI: `10.13039/501100001711` | `award` after `'_'` and before `'/'` | Link to SNSF project |
| DOI: `10.13039/501100004410` | `award` | Link to TUBITAK project |
| DOI: `10.10.13039/100004440` or name: `Wellcome Trust Masters Fellowship` | `award` | Link to Wellcome Trust specific project and to the `unidentified` project. |
### Intersect Crossref with UnpayWall by DOI
The fields we consider from UnpayWall are:
* `is_oa`
* `best_oa_location`
* `oa_status`
The records of Crossref that intersect by DOI with UnpayWall records are enriched with one additional `instance` with the following properties:
| OpenAIRE Research Product field path | Unpaywall field path | Notes |
|----------------------------------------|----------------------------|------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| `instance` | | created only if `is_oa` and a `best_oa_location` is available |
| `instance.accessright` | | default value `Open Access`: we do not add instances if UnpayWall says there is no open version |
| `instance.accessright.code` | | Open Access code from the [COAR vocabulary for access right](http://vocabularies.coar-repositories.org/documentation/access_rights/) |
| `instance.accessright.label` | | Always `OPEN` |
| `instance.accessright.scheme` | | Scheme that defines the code and label, i.e. the URL to the [COAR vocabulary for access right](http://vocabularies.coar-repositories.org/documentation/access_rights/) |
| `instance.accessright.openAccessRoute` | `oa_status` | |
| `instance.url` | `best_oa_location` | |
| `instance.license` | `best_oa_location.license` | |
| `instance.pid` | | The scheme tells the type of PID, the value contains the actual value |
| `instance.pid.scheme` | | Default value: `doi` |
| `instance.pid.value` | `doi` | The doi is normalised and lower-cased |
For the definition of UnpayWall's `oa_status` refer to the [Unpaywall FAQ](https://support.unpaywall.org/support/solutions/articles/44001777288-what-do-the-types-of-oa-status-green-gold-hybrid-and-bronze-mean-)
The record will also feature a relation to the UnpayWall data source: `name="UnpayWall"`, `id=openaire____::8ac8380272269217cb09a928c8caa993`.

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# Datacite
This section describes the aggregation workflow used to gather the bibliographic material from Datacite and the relative mapping.
## Datacite datasource
[Datacite](https://datacite.org/index.html) is a leading global non-profit organisation that provides persistent identifiers (DOIs) for research data and other research outputs.
## Datacite API
The [DataCite REST API](https://support.datacite.org/docs/api) allows users to retrieve, query, and browse Datacite metadata records. In particular, it exposes a method for harvesting new records incrementally.
```
https://api.datacite.org/dois?page[cursor]=$CURSOR&page[size]=$NUMBER_OF_ITEM_PER_PAGE&query=updated:[$FROM_DATE_TIMESAMP TO $TO_DATE_TIMESAMP]
```
On this API Request, we introduce some variables:
- **CURSOR**: The value of the cursor to iterate the pages; the cursor is extracted from each API response and used in the next request.
- **NUMBER_OF_ITEM_PER_PAGE**: (max 1000) defines how many records must be returned within each API response.
- **FROM_DATE_TIMESAMP, TO_DATE_TIMESAMP** interval timestamp of the updated record.
Each record contains two pieces of information needed for incremental harvesting:
- **isActive**: tells if the record is deleted (`isActive:false`)
- **updated**: timestamp of last update
## Collection Workflow
The collection workflow is responsible for aggregating new records. Each record is stored locally on a table with the following schema:
- **DOI**: The DOI of the Datacite record (it is the primary key)
- **update_timestamp**: the last update date timestamp
- **json**: the native record JSON
The metadata collection process identifies the most recent record date available locally and uses such date to requests the records to the Datacite API, populating the **FROM_DATE_TIMESAMP** variable. The records in the API response are included in the local storage in upsert mode.
## Datacite Mapping
### Entity Mapping
The table below describes the mapping from the XML baseline records to the OpenAIRE Graph dump format.
| OpenAIRE Research Product field path | Datacite record JSON path | # Notes |
|--------------------------------------------------------|-------------------------------------------------------------------------------------------------------------------------------------------------|------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| `id` | `\attributes\doi` | id in the form `doi_________::md5(doi)` |
| <ul><li>`instance`</li> <li>`instance.type`</li></ul> | <ul><li>`\attributes\types\resourceType`</li> <li> `\attributes\types\resourceTypeGeneral` </li> <li>`attributes\types\schemaOrg`</li></ul> | Use the vocabulary **_dnet:publication_resource_** to find a synonym to one of these terms and get the `instance.type`. |
| `type` | <ul><li>`\attributes\types\resourceType`</li> <li> `\attributes\types\resourceTypeGeneral` </li> <li>`attributes\types\schemaOrg`</li></ul> | Using the **_dnet:result_typologies_** vocabulary, we look up the `instance.type` synonym to generate one of the following main entities: <ul><li>`publication`</li> <li>`dataset`</li> <li> `software`</li> <li>`otherresearchproduct`</li></ul> |
| `pid` | `\attributes\doi` | `scheme = doi` |
| `originalid` | `\attributes\doi` | |
| `dateofcollection` | `attributes\updated` | the timestamp is defined in milliseconds we convert to "yyyy-MM-dd'T'HH:mm:ssZ" format |
| `author` | `\attributes\creators` | Each creator field will be mapped in the author entity below the subfield. **If the record has no Creator it will be skipped** |
| `author.fullname` | `\attributes\creators\name` | if name is not defined, we construct from given and family name |
| `author.rank` | | Incremental index starting from 1 |
| `author.name` | `\attributes\creators\givenName` | |
| `author.surname` | `\attributes\creators\familyName` | |
| `author.pid` | `\attributes\creators\nameIdentifiers` | this is a list of pids associated to the creator |
| `author.pid.scheme` | `\attributes\creators\nameIdentifiers` | mapping with vocabulary **dnet:pid_types** |
| `author.pid.value` | `\attributes\creators\nameIdentifiers/nameIdentifier` | the pid value |
| `maintitle` | `\attributes\titles` | Titles whose title type is null or title type is Main |
| `subtitle` | `\attributes\titles` | Titles whose title type is Subtitle since the title type vocabulary in OpenAIRE use the datacite title type vocabulary |
| **date section** | | for each date in particular for DOI starting with _10.14457_ we Apply a fix thai date convert a date to ThaiBuddhistDate and reformat to local one see ticket [#6791](https://support.openaire.eu/issues/6791) |
| `publicationdate` | `\attributes\dates` | where `dateType` is **issued** |
| `publicationdate` | `\attributes\publicationYear` | we create this date format `01-01-publicationYear` |
| `embargoenddate` | `\attributes\dates` | where `dateType` is **available** |
| `subjects` | `\attributes\subject` | `scheme=keywords` |
| `description` | `\attributes\descriptions` | |
| `publisher` | `\attributes\publisher` | |
| `language` | `\attributes\language` | cleaned by using vocabulary `dnet:languages` |
| `publisher` | `\attributes\publisher` | |
| `instance.license` | `\attributes\rightsList` | if the rights value starts with http and matches a particular regex |
| `instance.accessright` | `\attributes\rightsList` | <ul><li>if not present :`unknown`</li><li>if datasource is Figshare:`open`</li><li>If `embargo_date < today()`: OPEN</li></ul> |
### Relation Mapping
| OpenAIRE Relation Semantic and inverse | Datacite record JSON path | Source/Target type | #Notes |
|----------------------------------------|---------------------------------------|---------------------|------------------------------------------------------------------------------------------------------------|
| `isProducedBy/produces` | `attributes\fundingReferences` | `ResearchProduct/Project` | only when the fundingReferences matches the pattern `(info:eu-repo/grantagreement/ec/h2020/)(\d{6})(.*)` |
| `IsProvidedBy/provides` | | `ResearchProduct/Datasource` | Datasource is always set to `Datacite` |
| `isHostedBy/host` | `\attributes\relationships\client\id` | `ResearchProduct/Datasource` | we defined a curated map clientId/Datasource if we found a match we create an _hostedBy Relation_ |
| `isRelatedTo` | `\attribute\relatedIdentifiers` | `ResearchProduct/ResearchProduct` | we create relationships whenever the pid of the target is resolved on the Research Graph |

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# DOIBoost: Crossref, Unpaywall, Microsoft Academic Graph, ORCID
DOIBoost is a dataset that combines research outputs and links among them from a selection of data sources.
It enriches the records available on Crossref with what's available on Unpaywall, Microsoft Academic Graph, ORCID intersecting all those datasets by DOI.
As consequence, DOIBoost does not contain any record from MAG, Unpaywall, or ORCID that doesn't provide a DOI available in Crossref.
Each Crossref record is enriched with:
* ORCID identifiers of authors from ORCID
* Open Access instance (with OA color/route and license) from Unpaywall
* the following information from MAG:
* abstracts
* MAG identifiers of authors
* affiliation (research product - organization) relationships
* subjects (MAG FieldsOfStudy)
* conference or journal information
The Open Access status is also set by intersecting the journal information of a record with the journal lists available from DOAJ and the Gold ISSN list.
## Inputs
* *Crossref*: dump available to Crossref subscribers via MetadataPlus service, updated once a month.
* *Microsoft Academic Graph*: downloaded version on 2021-02-15. We plan to take the latest version in Dec 2021 before MAG will be retired.
* *ORCID*: baseline dump obtained in 2020-10-13, regularly updated every week from the [ORCID public API](https://info.orcid.org/documentation/features/public-api).
* *Unpaywall*: public database snapshot downloaded in March 2021. Unpaywall updates it twice a year (https://unpaywall.org/products/snapshot)
The construction of the DOIBoost dataset consists of the following phases:
## Process
The following section describes the processing steps needed to build DOIBoost starting from the input data.
### Crossref filtering
Records in Crossref are ruled out according to the following criteria
* have blank title, examples:
* `10.1093/rheumatology/41.7.837`
* `10.1093/qjmed/95.7.430`
* `10.1371/journal.pone.0171434.g005`
* have one of the following publishers: `"Test accounts"`, `"CrossRef Test Account"`
* Examples from https://api.crossref.org/works?query.publisher-name=%22Test%20accounts%22
* `10.1007/bf00344543`
* `10.1007/bf00186154`
* `10.1306/64ed947a-1724-11d7-8645000102c1865d`
* have no authors with valid names, where valid means: not blank and different from all strings in this list: `List(",", "none none", "none, none", "none &na;", "(:null)", "test test test", "test test", "test", "&na; &na;")`
* Examples for blank authors:
* `10.1108/00070709810247807`
* `10.1016/s1074-9098(02)00346-5`
* `10.1136/heart.88.1.6`
* Examples for `"none"` author from https://api.crossref.org/works?query.author=%22none%22
* `10.4007/annals.2016.184.3.11`
* `10.4007/annals.2012.176.1.6`
* `10.2172/6393585`
* Examples for `"test"` author from https://api.crossref.org/works?query.author=%22test%22
* `10.5116/ijme.54ca.a5ae`
* `10.5755/j01.ss.71.2.544`
* `10.5755/j01.ee.22.2.319`
* have `"Addie Jackson"` as author and `"Elsevier BV"` as publisher (empirically we say they are test records)
* Examples from https://api.crossref.org/works?query.author=Addie+Jackson&query.publisher-name=%22Elsevier%20BV%22
* `10.2139/ssrn.2082156`
* `10.2139/ssrn.2202300`
* `10.2139/ssrn.2255657`
* have not one of the following values in the field `type` : `"book-section"`, `"book"`, `"book-chapter"`, `"book-part"`, `"book-series"`, `"book-set"`, `"book-track"`, `"edited-book"`, `"reference-book"`, `"monograph"`, `"journal-article"`, `"dissertation"`, `"other"`, `"peer-review"`, `"proceedings"`, `"proceedings-article"`, `"reference-entry"`, `"report"`, `"report-series"`, `"standard"`, `"standard-series"`, `"posted-content"`, `"dataset"`,
* Example:
* `10.1371/journal.pone.0171434.g005`
* `10.7554/elife.21052.049`
* `10.1371/journal.pcbi.1005379.s006`
Records with `type=dataset` are mapped into OpenAIRE research products of type dataset. All others are mapped as OpenAIRE research products of type publication.
### Mapping Crossref properties into the OpenAIRE Graph
Properties in OpenAIRE research products are set based on the logic described in the following table:
| OpenAIRE Research Product field path | Crossref path(s) | Notes |
|----------------------------------------|--------------------------------------------------------------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| `id` | `doi` | id in the form `doi_________::md5(doi)` |
| `dateofcollection` | `indexed.datetime` | |
| `lastupdatetimestamp` | `indexed.timestamp` | |
| `type` | `type` | `dataset` if the Crossref type is dataset, `publication` otherwise (based on the filtering logics described above) |
| `originalId` | `doi, clinical-trial-number, alternative-id` | |
| `pid` | | The scheme tells the type of PID, the value contains the actual value |
| `pid.scheme` | | Default value: doi |
| `pid.value` | `doi` | The doi is normalised and lower-cased |
| `maintitle` | `title` | |
| `subtitle` | `subtitle` | |
| `author` | `author` | if available the sequence is mapped to rank and the ORCID is also mapped |
| `author.name` | `author.given` | |
| `author.surname` | `author.family` | |
| `author.fullname` | `author.given author.family` | |
| `author.rank` | | based on the order, starts from 1 |
| `author.pid` | | only if the ORCID is available |
| `author.pid.id.scheme` | | Default `'pending_orcid'` (meaning that it is not an id confirmed by ORCID) |
| `author.pid.id.value` | `author.ORCID` | |
| `author.pid.provenance.provenance` | | Default 'Harvested' |
| `author.pid.provenance.trust` | | Default '0.9' |
| `description` | `abstract` | |
| `subject` | `subject` | with `classid='keywords'`, i.e. no controlled vocabularies for Crossref subjects |
| `publicationdate` | `issued.datetime` or, if not available, `created.datetime` | |
| `publisher` | `publisher` | |
| `source` | `source` | only if the record is not of type `book` |
| `source` | concatenation of `container-title.head` + `"ISBN: "` + `ISBN.head` | only if the record is of type `book` |
| `container` | | It is set only for publications with information about the journal it was published in. |
| `container.name` | `container-title.head` | |
| `container.issnOnline` | `issn-type.value` | if `issn-type.type='electronic'` |
| `container.issnPrinted` | `issn-type.value` | if `issn-type.type='print'` |
| `container.vol` | `volume` | |
| `container.sp` | `page` | before `'-'` |
| `container.ep` | `page` | after `'-'` |
| `instance` | | One instance is created with the DOI URL |
| `instance.accessright` | | Values in `instance.accessright.code` and `instance.accessright.label` are set based on license and dateofacceptance:<br/>- `UNKNOWN`: if the license is blank<br/>- `OPEN ACCESS`: if the license is a CC license or an ACS license or an APA license (considered OPEN also by Unpaywall, see [Unpaywall FAQ](https://support.unpaywall.org/support/solutions/articles/44002063718-what-is-an-oa-license-) for details) or if OUP license, but only after 12 months from the publication date<br/>- `EMBARGO`: OUP license, before 12 months from the publication date<br/>- `CLOSED`: if there is a license not covered by the previous cases |
| `instance.accessright.code` | | Code from the [COAR vocabulary for access right](http://vocabularies.coar-repositories.org/documentation/access_rights/) |
| `instance.accessright.label` | | One of: `OPEN`, `RESTRICTED`, `CLOSED`, `EMBARGO` |
| `instance.accessright.scheme` | | Scheme that defines the code and label, i.e. the URL to the [COAR vocabulary for access right](http://vocabularies.coar-repositories.org/documentation/access_rights/) |
| `instance.accessright.openAccessRoute` | | only if `instance.accessright.value = 'OPEN ACCESS'`. Default is `hybrid`. The route is fixed in subsequent phases of DOIBoost, namely when intersecting with Unpaywall and patching the hostedby via DOAJ and the Gold-ISSN list. |
| `instance.license` | `license.URL ` | If there is a `license.content-version='vor'`, then this is used. Otherwise the first license entry is used. |
| `instance.pid` | | The scheme tells the type of PID, the value contains the actual value |
| `instance.pid.scheme` | | Default value: `doi` |
| `instance.pid.value` | `doi` | The doi is normalised and lower-cased |
| `instance.publicationdate` | `issued.datetime` or, if not available, `created.datetime` | |
| `instance.refereed` | | set to `peerReviewed` only if `relation.has-review.id` is not empty, `UNKNOWN` otherwise. |
| `instance.type` | `subtype` | mapped using the [OpenAIRE vocabulary for research products typologies](https://api.openaire.eu/vocabularies/dnet:result_typologies) |
| `instance.url` | `doi` | Full URL of the DOI |
All other fields of the Json schema not mentioned in the table contain empty values.
All the records from Crossref are related to the datasource with `name=Crossref` and `id=openaire____::081b82f96300b6a6e3d282bad31cb6e2`
Possible improvements:
* map `clinical-trial-number` and `alternative-id` in `alternateIdentifiers`?
* Verify if Crossref has a property for `language`, `country`, `container.issnLinking`, `container.iss`, `container.edition`, `container.conferenceplace` and `container.conferencedate`
* Different approach to set the `refereed` field and improve its coverage?
### Map Crossref links to projects/funders
Links to funding available in Crossref are mapped as funding relationships (`ResearchProduct -- isProducedBy -- Project`) applying the following mapping:
| Funder | Grant code | Link to |
|----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|------------------------------------------------------------------------------------------|-----------------------------------------------------------------------------------------------------------------------------------------------------|
| DOI: `{10.13039/100010663, 10.13039/100010661, 10.13039/501100007601, 10.13039/501100000780, 10.13039/100010665}` or name: `'European Unions Horizon 2020 research and innovation program'` | series of `4-9` digits in `award` | Link to H2020 project |
| DOI: `{10.13039/100011199, 10.13039/100004431, 10.13039/501100004963, 10.13039/501100000780}` | series of `4-9` digits in `award` | Link to FP7 project |
| DOI: `10.13039/501100000781` OR name: `'European Union's'` | series of `4-9` digits in `award` | Link to FP7 or H2020 project |
| DOI: `10.13039/100000001` | `award` | Link to NSF project |
| DOI: `10.13039/501100001665` OR name: `{'The French National Research Agency (ANR)', 'The French National Research Agency'}` | `award` | Link to ANR project |
| DOI: `10.13039/501100002341` | `award` | Link to Academy of Finland project |
| DOI: `10.13039/501100001602` | `award`, removing the initial 'SFI' if present | Link to SFI project |
| DOI: `10.13039/501100000923` | `award` | Link to ARC project |
| DOI: `10.13039/501100000038` | `award` ignore: we cannot map the project codes in Crossref to project codes in OpenAIRE | Link to NSERC (`unidentified` project) |
| DOI: `10.13039/501100000155` | `award` ignore: we cannot map the project codes in Crossref to project codes in OpenAIRE | Link to SSHRC (`unidentified` project) |
| DOI: `10.13039/501100000024` | `award` ignore: we cannot map the project codes in Crossref to project codes in OpenAIRE | Link to CIHR (`unidentified` project) |
| DOI: `10.13039/501100002848` OR name :`'CONICYT, Programa de Formación de Capital Humano Avanzado'` | `award` | Link to CONICYT project |
| DOI: `10.13039/501100003448` | series of `4-9` digits in award | Link to GSRT project |
| DOI: `10.13039/501100010198` | `award` | Link to SGOV project |
| DOI: `10.13039/501100004564` | series of `4-9` digits in award | Link to MESTD project |
| DOI: `10.13039/501100003407` | `award` | Link to MIUR project. Since OpenAIRE has a small subset of MIUR projects, a link to the MIUR funder (`unidentified`<br/> project) is also generated |
| DOI: `{10.13039/501100006588, 10.13039/501100004488}` | `award`, removing `'Project No'` and `'HRZZ'` prefix, if present | Link to HRZZ or MZOS project |
| DOI: `10.13039/501100006769` | `award` | Link to Russian Science Foundation project |
| DOI: `10.13039/501100001711` | `award` after `'_'` and before `'/'` | Link to SNSF project |
| DOI: `10.13039/501100004410` | `award` | Link to TUBITAK project |
| DOI: `10.10.13039/100004440` or name: `Wellcome Trust Masters Fellowship` | `award` | Link to Wellcome Trust specific project and to the `unidentified` project. |
### Intersect Crossref with UnpayWall by DOI
The fields we consider from UnpayWall are:
* `is_oa`
* `best_oa_location`
* `oa_status`
The records of Crossref that intersect by DOI with UnpayWall records are enriched with one additional `instance` with the following properties:
| OpenAIRE Research Product field path | Unpaywall field path | Notes |
|----------------------------------------|----------------------------|------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| `instance` | | created only if `is_oa` and a `best_oa_location` is available |
| `instance.accessright` | | default value `Open Access`: we do not add instances if UnpayWall says there is no open version |
| `instance.accessright.code` | | Open Access code from the [COAR vocabulary for access right](http://vocabularies.coar-repositories.org/documentation/access_rights/) |
| `instance.accessright.label` | | Always `OPEN` |
| `instance.accessright.scheme` | | Scheme that defines the code and label, i.e. the URL to the [COAR vocabulary for access right](http://vocabularies.coar-repositories.org/documentation/access_rights/) |
| `instance.accessright.openAccessRoute` | `oa_status` | |
| `instance.url` | `best_oa_location` | |
| `instance.license` | `best_oa_location.license` | |
| `instance.pid` | | The scheme tells the type of PID, the value contains the actual value |
| `instance.pid.scheme` | | Default value: `doi` |
| `instance.pid.value` | `doi` | The doi is normalised and lower-cased |
For the definition of UnpayWall's `oa_status` refer to the [Unpaywall FAQ](https://support.unpaywall.org/support/solutions/articles/44001777288-what-do-the-types-of-oa-status-green-gold-hybrid-and-bronze-mean-)
The record will also feature a relation to the UnpayWall data source: `name="UnpayWall"`, `id=openaire____::8ac8380272269217cb09a928c8caa993`.
### Intersect with ORCID
The fields we consider from ORCID are:
* `doi`
* `authors`, a list of authors, each with optional `name`, `surname`, `creditName`, `oid`
| OpenAIRE field path | ORCID path | Notes |
|------------------------------------|-----------------------|--------------------------------------------------------------------------------------------------------------------------------------|
| `pid` | `doi` | |
| `author.name` | `capitalize(name)` | only mapped if not blank |
| `author.surname` | `capitalize(surname)` | only mapped if not blank |
| `author.fullname` | | if name and surname are not blank, they are concatenated (`capitalize(name) capitalize(surname)`), otherwise we use the `creditName` |
| `author.pid` | | only if the `ORCID` is available |
| `author.pid.id.scheme` | | Default `orcid` (meaning that it is confirmed by ORCID, (in contrast to the `orcid_pending` set from Crossref and Unpaywall) |
| `author.pid.id.value` | `oid` | |
| `author.pid.provenance.provenance` | | Default `Harvested` |
| `author.pid.provenance.trust` | | Default `0.9` |
The records are enriched with the ORCID identifiers of their authors.
[//]: # (TODO: Update with the new approach implemented by Miriam.)
The current approach is:
* if the number of authors from Crossref equals the size of authors from ORCID, then we pick the list of authors with more PIDs and try to enrich it with the PIDs from the other list, based on JaroWrinkler distance on authors' names, surnames, or fullnames, depending on which properties are available;
* if the number of authors are different, then we take the longest and try to enrich it with the PIDs from the other author list, based on JaroWrinkler distance on authors' names, surnames, or fullnames, depending on which properties are available
Miriam will modify the process to ensure that:
* the list of authors from Crossred always "win"
* the identifiers from ORCID "win"
### Intersect with Microsoft Academic Graph
*Important Notes*
* Only papers with DOI are considered
* Since for the same DOI we have multiple version of item with different MAG PaperId, we only take one per DOI (the last one we process). We call this dataset `Papers_distinct`
When mapping MAG records to the OpenAIRE Graph, we consider the following MAG tables:
* `PaperAbstractsInvertedIndex`: for the paper abstracts
* `Authors`: for the authors. The MAG data is pre-processed by grouping authors by PaperId
* `Affiliations` and `PaperAuthorAffiliations`: to generate links between publications and organisations
* `Journals` and `ConferenceInstances`: joined with `Papers_distinct` to have the information about the venues where the paper was published
* TO BE REMOVED `PaperUrls`: to create one instance for the OpenAIRE publication
* `FieldsOfStudy`: to add subjects
The records are enriched with:
* abstracts
* MAG identifiers of authors
* affiliation relationships
* subjects (MAG FieldsOfStudy)
* conference or journal information (in the `journal` field) TODO: or `container`, in case of the dump?
* [TO BE REMOVED] instances with URL from MAG
### Enrich DOIBoost3 with hosting data sources (`hostedby`) and access right information
In this phase, we intersect DOIBoost3 with a dataset composed of journals from OpenAIRE, Crossref, and the ISSN gold list. Each journal comes with its International Standard Serial Numbers (`issn`, `eissn`, `lissn`) and, when available, a flag that tells if the journal is open access. The intersection is done on the basis of the International Standard Serial Numbers. The records with a `journal.[l|e]issn` that match are enriched as follows:
* Each instance gain the `hostedby` information corresponding to the journal
* If the journal is open access, the access rights of the instances are also set to `Open Access` with `gold` route (because by construction, the journals we know are open are from DOAJ or Gold ISSN list)
The hostedby of records that do not match are set to the `Unknown Repository`.
## References
The idea behind DOIBoost and its origin can be found in the paper (and related resources) at:
* La Bruzzo S., Manghi P., Mannocci A. (2019) OpenAIRE's DOIBoost - Boosting CrossRef for Research. In: Manghi P., Candela L., Silvello G. (eds) Digital Libraries: Supporting Open Science. IRCDL 2019. Communications in Computer and Information Science, vol 988. Springer, doi:10.1007/978-3-030-11226-4_11 . Open Access version available at: [10.5281/zenodo.1441071](https://doi.org/10.5281/zenodo.1441071)

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# EMBL-EBIs Protein Data Bank in Europe
This section describes the mapping implemented for [EMBL-EBIs Protein Data Bank in Europe](https://www.ebi.ac.uk/).
The Europe PMC RESTful Web Service gives the [datalinks API](https://europepmc.org/RestfulWebService#!/Europe32PMC32Articles32RESTful32API) to retrieve data-literature links in Scholix format.
## How the data is collected
Starting from the Pubmed collection, the API below is used to obtain the bioentities related to publications for each PubMed identifier.
Example:
```commandline
curl -s "https://www.ebi.ac.uk/europepmc/webservices/rest/MED/33024307/datalinks?format=json" | jq '.'
{
"version": "6.8",
"hitCount": 9,
"request": {
"id": "33024307",
"source": "MED"
},
"dataLinkList": {
"Category": [
{
"Name": "Nucleotide Sequences",
"CategoryLinkCount": 5,
"Section": [
{
"ObtainedBy": "tm_accession",
"Tags": [
"supporting_data"
],
"SectionLinkCount": 5,
"Linklist": {
"Link": [
{
"ObtainedBy": "tm_accession",
"PublicationDate": "04-11-2022",
"LinkProvider": {
"Name": "Europe PMC"
},
"RelationshipType": {
"Name": "References"
},
"Source": {
"Type": {
"Name": "literature"
},
"Identifier": {
"ID": "33024307",
"IDScheme": "MED"
}
},
"Target": {
"Type": {
"Name": "dataset"
},
"Identifier": {
"ID": "AY278488",
"IDScheme": "ENA",
"IDURL": "http://identifiers.org/ebi/ena.embl:AY278488"
},
"Title": "AY278488",
"Publisher": {
"Name": "Europe PMC"
}
},
[...]
```
## Mapping
The table below describes the mapping from the EBI links records to the OpenAIRE Graph Dataset format.
We filter all the target links with pid type **ena**, **pdb** or **uniprot**
For each target we construct a Bioentity with the following mapping
| OpenAIRE Research Product field path | EBI record field xpath | Notes |
|-----------------------------|----------------------------------------------------------|---------------------------------------------------------------|
| `id` | `target/identifier/ID` and `target/identifier/IDScheme` | id in the form `SCHEMA_________::md5(pid)` |
| `pid` | `target/identifier/ID` and `target/identifier/IDScheme` | `classid = classname = schema` |
| `publicationdate` | `target/PublicationDate` | clean and normalize the format of the date to be `YYYY-mm-dd` |
| `maintitle` | `target/Title` | |
| **Instance Mapping** | | |
| `instance.type` | | `Bioentity` |
| `type` | | `Dataset` |
| `instance.pid` | `target/identifier/ID` and `target/identifier/IDScheme` | `classid = classname = schema` |
| `instance.url` | `target/identifier/IDURL` | Copy the value as it is |
| `instance.publicationdate` | `//PubmedPubDate` | clean and normalize the format of the date to be YYYY-mm-dd |
### Relation Mapping
| OpenAIRE Relation Semantic and inverse | Source/Target type | Notes |
|----------------------------------------|---------------------|--------------------------------------------------------------------------|
| `IsRelatedTo` | `ResearchProduct/ResearchProduct` | we create relationships between the BioEntity and the pubmed publication |

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# Microsoft Academic Graph
## Data acquisition
The Microsoft Academic Graph dataset is generated from the latest released version of the graph, 06-12-2021.
### Changes from the previous version
* New workflow: MAG is no longer created within the DOIBoost process. Now, a new workflow normalizes the various MAG tables into a single table, from which the action set is generated.
* MAG discontinued: It is important to note that MAG has been finished. Therefore, normalization only occurs once data is imported from a complete dump of MAG.
## Process
The Microsoft Academic Graph (MAG) is a heterogeneous graph that contains scientific publication records, citation relationships between those publications, as well as authors, institutions, journals, conferences, and fields of study. The MAG schema is designed to capture the rich and complex relationships between these entities.
The main node types in the MAG schema are:
* `Paper`: Publications represent works of scientific research, such as articles, books, and book chapters.
* `PaperAbstractsInvertedIndex`: used to map the paper abstracts
* `Authors`: Authors represent the people who wrote the publications.
Institutions: Institutions represent the organizations with which the authors are affiliated.
* `Journals`: Journals represent the periodical series in which the publications are published.
* `Conferences`: Conferences represent the academic meetings in which the publications are presented.
The main edge types in the MAG schema are:
* `Citation relationships`: Citation relationships connect citing publications to cited publications.
* `Affiliation relationships`: Affiliation relationships connect authors to the institutions with which they are affiliated.
### Preprocess
In the first phase, a normalized table is defined containing all papers and associated relationships.
### Mapping MAG properties into the OpenAIRE Graph
Properties in OpenAIRE research products are set based on the logic described in the following table:
| OpenAIRE Research Product field path | MAG path(s) | Notes |
|---------------------------------------|------------------|-------------|
| `id` |`PaperId`| id in the form `mag_________::md5(PaperId)`|
| `instance.alternateIdentifier[@type = DOI]` |`Doi` | DOI intersected with Crossref. Only MAG papers with a DOI present in Crossref are filtered|
| `instance.instancetype` | `DocType` |Using the **_dnet:result_typologies_** vocabulary, we look up the `DocType` synonym to generate one of the following main entities: <ul><li>`publication`</li> <li>`dataset`</li><li>`software`</li><li>`otherresearchproduct`</li></ul>|
| `maintitle` | `OriginalTitle`| |
| `publicationdate` |`Year` | publication date if `Date` is not available|
| `publicationdate` | `Date`| |
| `publicationdate` |`OnlineDate` | Date the article was put online |
| `publisher` | `Publisher` | |
| `journal.name` |`ConferenceName` | |
| `journal.issnPrinted` | `JournalISSN` | |
| `journal.edition` | `JournalPublisher` | |
| `journal.ConferencePlace` | `ConferenceLocation` | |
| `journal.conferencedate` | `ConferenceStartDate`, `ConferenceEndDate`| conference date as an append of conferencestartdate-conferenceenddate |
| `journal.vol` | `Volume` | |
| `journal.iss` | `Issue`| |
| `journal.sp` | `FirstPage` | |
| `journal.ep` | `LastPage` | |
| `abstract` | `Paper abstract` | |
| **Author Mapping** | | |
| `author.fullname` | `AuthorName` | |
| `organization.legalname` | `AffiliationName` | |
| `organization.id` | `AffiliationId` | id in the form `mag_________::md5(AffiliationId)` |
|`organization.id` | `AffiliationId` | for each affiliation we generate an affiliation relation between paper and organization |
| `author.pid[@type = mag]` | `AuthorId` | |
| `author.rank` | `AuthorSequenceNumber` | |
| `organization.pid` | `GridId` | |

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# Open Researcher and Contributor ID (ORCID)
ORCID (Open Researcher and Contributor ID) is a non-profit organization that provides a unique identifier for researchers. ORCID iDs are used to connect researchers with their contributions, such as publications, grants, and affiliations.
This document describes how OpenAIRE collects information about the researcher profiles and their works from the ORCID.
## Data acquisition
The ORCID full dataset can be downloaded publicly from [Figshare](https://orcid.figshare.com/) and are described on the [ORCID website](https://support.orcid.org/hc/en-us/articles/360006897394-How-do-I-get-the-public-data-file).
These datasets represented the initial import, whereas to keep up with the updates in the data a scheduled process retrieves the delta regularly.
The ORCID dataset consists in different compressed files containing information about researchers in XML format. Once uncompressed, the information extracted from the XML records was used to populate the three tables described below.
ORCID provides an API to get incremental updates, the parsed incremental data can be used to update the three tables with the latest changes.
### OpenAIRE ORCID Data model
- **Authors**: This table contains information about ORCID authors, including their ORCID ID, name, fullname, other names, employments, works, and ROAR IDs.
- **Employments**: This table contains information about the employments of ORCID authors, including their ORCID ID, organization, start date, end date, and ROAR ID.
- **Works**: This table contains information about the works of ORCID authors, including te paper PID and ORCID ID.
**Authors**
| Column name | Type |
|----------------------|----------------------------------------------|
| `biography` | `string` |
| `creditName` | `string` |
| `familyName` | `string` |
| `givenName` | `string` |
| `orcid` | `string` |
| `otherNames` | `array[string]` |
| `otherPids` | `array[struct[schema:string, value:string]]` |
| `visibility` | `string` |
| `lastModifiedDate` | `string` |
**Employments**
| Column name | Type |
|------------------|---------------------------------------|
| `affiliationId` | `struct[schema:string, value:string]` |
| `departmentName` | `string` |
| `endDate` | `string` |
| `orcid` | `string` |
| `roleTitle` | `string` |
| `startDate` | `string` |
**Works**
| Column name | Type |
|-------------|----------------------------------------------|
| `orcid` | `string` |
| `pids` | `array[struct[schema:string, value:string]]` |
| `title` | `string` |
For a more extensive description of the different fields and the schema of the record model please refer to the [ORCID project on GitHub](https://github.com/ORCID/orcid-model).
## Process
The information obtained by ORCID is used to enrich the Graph, in particular to add the author identifiers to the results not providing one.
This process is described in the [enrichment by PID](../../enrichment-by-pid/orcid-enrichment) section.

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# PubMed
This section describes the mapping implemented for [MEDLINE/PubMed](https://pubmed.ncbi.nlm.nih.gov/).
## Input
The native data is collected from the [ftp baseline](https://ftp.ncbi.nlm.nih.gov/pubmed/baseline/) site.
It contains XML records compliant with the schema available at [www.nlm.nih.gov](https://www.nlm.nih.gov/bsd/licensee/elements_descriptions.html).
## Incremental harvesting
Pubmed exposes an entry point FTP with all the updates for each one. [ftp baseline update](https://ftp.ncbi.nlm.nih.gov/pubmed/updatefiles/). We collect the new file and generate the new dataset by upserting the existing item.
## Entity Mapping
The table below describes the mapping from the XML baseline records to the OpenAIRE Graph dump format.
| OpenAIRE Research Product field path | PubMed record field xpath | Notes |
|--------------------------------|-----------------------------------------------------------------------------------------------------------------------------------------------|-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|
| **Publication Mapping** | | |
| `id` | `//PMID` | id in the form `pmid_________::md5(pmid)` |
| `pid` | `//PMID` | `classid = classname = pmid` |
| `publicationdate` | `//PubmedPubDate` | clean and normalize the format of the date to be YYYY-mm-dd |
| `maintitle` | `//Title` | |
| `description` | `//AbstractText` | |
| `language` | `//Language` | cleaning vocabulary -> dnet:languages |
| `subjects` | `//DescriptorName` | classId, className = keyword |
| **Author Mapping** | | |
| `author.surname` | `//Author/LastName` | |
| `author.name` | `//Author/ForeName` | |
| `author.fullname` | `//Author/FullName` | Concatenation of forename + lastName if exist |
| `author.rank` | FOR ALL AUTHORS | sequential number starting from 1 |
| **Journal Mapping** | | |
| `container.conferencedate` | `//Journal/PubDate` | map the date of the Journal |
| `container.name` | `//Journal/Title` | name of the journal |
| `container.vol` | `//Journal/Volume` | journal volume |
| `container.issPrinted` | `//Journal/ISSN` | the journal issn |
| `container.iss` | `//Journal/Issue` | The journal issue |
| **Instance Mapping** | | |
| `instance.type` | `//PublicationType` | if the article contains the typology `Journal Article` then we apply this type else We have to find a terms that match the vocabulary otherwise we discard it |
| `type` | <ul><li>`\attributes\types\resourceType`</li> <li> `\attributes\types\resourceTypeGeneral` </li> <li>`attributes\types\schemaOrg`</li></ul> | Using the **_dnet:result_typologies_** vocabulary, we look up the `instance.type` synonym to generate one of the following main entities: <ul><li>`publication`</li> <li>`dataset`</li> <li> `software`</li> <li>`otherresearchproduct`</li></ul> |
| `instance.pid` | `//PMID` | map the pmid in the pid in the instance |
| `instance.url` | `//PMID` | creates the URL by prepending `https://pubmed.ncbi.nlm.nih.gov/` to the PMId |
| `instance.alternateIdentifier` | `//ArticleId[./@IdType="doi"]` | |
| `instance.publicationdate` | `//PubmedPubDate` | clean and normalize the format of the date to be YYYY-mm-dd |

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# UniProtKB/Swiss-Prot
This section describes the mapping implemented to integrate metadata and links from [UniProtKB/Swiss-Prot](https://www.uniprot.org/).
The complete data dump "Reviewed (Swiss-Prot)" can be downloaded from [here](https://www.uniprot.org/help/downloads).
From this dataset, only the protein records linked to a PubMed publication are extracted.
## Entity Mapping
The table below describes the mapping from the TEXT metadata format to the OpenAIRE Graph Dataset format.
You can check an example of the text metadata [here](https://rest.uniprot.org/uniprotkb/A0A0C5B5G6.txt)
| OpenAIRE Research Product field path | FASTA record field xpath | Notes |
|------------------------------|--------------------------------------------------------------------------|------------------------------------------------------------------------------------------|
| **BIOEntity Mapping** | | |
| `id` | `LINE Starts with AC` | id in the form `uniprot_____::md5(id)` |
| `pid` | `LINE Starts with AC` | example `AC A0A0C5B5G6;` classid=classname=`uniprot` the vaue is the text after `AC` |
| `publicationdate` | `LINE START WITH DT containg text integrated into UniProtKB/Swiss-Prot` | clean and normalize the format of the date to be `YYYY-mm-dd` |
| `maintitle` | `LINE START WITH GN` | main title |
| **Instance Mapping** | | |
| `instance.type` | | `Bioentity` |
| `type` | | `Dataset` |
| `instance.pid` | `LINE Starts with AC` | `classid = classname = uniprot` |
| `instance.url` | `pid` | prepend to the value `https://www.uniprot.org/uniprot/` |
| `instance.publicationdate` | `LINE START WITH DT containg text integrated into UniProtKB/Swiss-Prot` | clean and normalize the format of the date to be YYYY-mm-dd |
### Relation Mapping
| OpenAIRE Relation Semantic and inverse | Source/Target type | Notes |
|----------------------------------------|----------------------|--------------------------------------------------------------------------------------------------------------------------|
| `IsRelatedTo` | `LINE START WITH RX` | the mapping creates relationships between the BioEntity and the PubMed or DOI generating an unresolved target identifier |

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# Cleaning
<!-- ## Vocabulary based cleaning -->
The aggregation processes run independently one from another and continuously. Each aggregation process, depending on the characteristics of the records exposed by the data source, makes use of one or more vocabularies to harmonise the values available in a given field.
In this page, we describe the *vocabulary-based cleaning* operation performed to harmonise the data of the different data sources.
A vocabulary is a data structure that defines a list of terms, and for each term defines a list of synonyms:
```xml
<TERMS>
<TERM native_name="Annotation" code="0018" english_name="Annotation" encoding="OPENAIRE">
<SYNONYMS>
<SYNONYM term="Comentario" encoding="CSIC"/>
<SYNONYM term="Comment/debate" encoding="Aaltodoc Publication Archive"/>
<SYNONYM term="annotation" encoding="OPENAIRE-PR202112"/>
[...]
</SYNONYMS>
<RELATIONS/>
</TERM>
<TERM native_name="Article" code="0001" english_name="Article" encoding="OPENAIRE">
<SYNONYMS>
<SYNONYM term="A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä" encoding="Aaltodoc Publication Archive"/>
<SYNONYM term="A4 Artikkeli konferenssijulkaisussa" encoding="Aaltodoc Publication Archive"/>
<SYNONYM term="Article" encoding="OTHER"/>
<SYNONYM term="Article (author)" encoding="OTHER"/>
[...]
```
Each vocabulary is typically used to control and harmonise the values available in a specific field characterising the bibliographic records. The example above provides a preview of the vocabulary used to clean the [research product's instance typology](../data-model/entities/research-product#instance).
The content of the vocabularies can be accessed on [api.openaire.eu/vocabularies](https://api.openaire.eu/vocabularies/).
Given a value provided in the original records, the cleaning process looks for a synonym and, when found, resolves the corresponding term which is used in turn to build the cleaned record.
Each aggregation process applies vocabularies according to their definitions in a given moment of time, however, it could be the case that a vocabulary changes after the aggregation of one data source has finished, thus the aggregated content does not reflect the current status of the controlled vocabularies.
In addition, the integration of ScholeXplorer and DOIBoost and some enrichment processes applied on the raw and on the de-duplicated graph may introduce values that do not comply with the current status of the OpenAIRE controlled vocabularies. For these reasons, we included a final step of cleansing at the end of the workflow materialisation.

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# Deduction
The Deduction process (also known as “bulk tagging”) enriches each record with new information that can be derived from the existing property values.
This process is used to associate research products to community/research initiatives that are part of OpenAIRE.
As of November 2022, three procedures are in place to relate a research product to a research initiative, infrastructure (RI) or community (RC) based on:
* subjects: it is possible to specify a list of subjects that are relevant for the RC/RI. Every time one of the subjects is found among the subjects of a research products, the research products is linked to the RC/RI.
<p align="center">
<img loading="lazy" alt="Bulktagging Subject" src={require('../../assets/img/enrichment/bulktagging_subject.png').default} width="50%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>
* data sources: it is possible to list a set of data sources relevant for the RC/RI. All research products collected from these data sources will be linked to the RC/RI
<p align="center">
<img loading="lazy" alt="Bulktagging Data source" src={require('../../assets/img/enrichment/bulktagging_datasource.png').default} width="50%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>
When only some research products collected from a datasource are relevant for the RC/RI, it is possible to specify a set of selection constraints (SC) that have to be verified before linking the research product to the
community. The selection constraint has the form <strong>SC = S1 or S2 or ... or Sn</strong>. The generic Si has the form <strong>Si = s<sub>i1</sub> and s<sub>i2</sub> and ...and s<sub>in</sub></strong> and each s<sub>ij</sub> is a condition on a specific field of the research product. The set of fields that can be specified is <strong>F={title, author, contributor, description, orcid}</strong>,
while the set of condition can be among <strong>V={contains, equals, not_contains, not_equals, contains_ignorecase, equals_ignorecase, not_contains_ignorecase, not_equal_ignorecase}</strong>, and the value is free text.
A possible selection criteria can be: “All the products whose contributor contains DARIAH “
<p align="center">
<img loading="lazy" alt="Bulktagging Data source" src={require('../../assets/img/enrichment/bulktagging_selconstraints.png').default} width="70%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>
* Zenodo community: it is possible to list a set of Zenodo communities relevant for the RC/RI. All the products collected from the listed Zenodo communities are linked to the RC/RI
<p align="center">
<img loading="lazy" alt="Bulktagging Zenodo Community" src={require('../../assets/img/enrichment/bulktagging_zenodo.png').default} width="50%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>
The list of subjects, Zenodo communities and data sources used to enrich the products are defined by the managers of the community gateway or infrastructure monitoring dashboard associated with the RC/RI.

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# Propagation
This process enriches the graph by adding new links and/or new properties. The new information is added by exploiting existing semantic
relationships and values between the involved entities
As of November 2022, the following procedures are in place:
* Country propagation: updates the property “country” of a research product. This happens when the research product is collected from an institutional datasource or when the datasource hosting the research product is inserted in a whitelist. For all the research products whose hosting datasource verifies one of the conditions above, the country of the organization providing the datasource is added to the country of the research product: e.g. publication collected from an institutional repository maintained by an italian university will be enriched with the property “country = IT”.
<p align="center">
<img loading="lazy" alt="Country Propagation" src={require('../../assets/img/enrichment/propagation_country.png').default} width="50%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>
* Project propagation: adds a "isProducedBy" relationship (and its inverse) between a Project P and research product R1, if R1 has a strong semantic relationship with another research product R2 and P produces R2: e.g. publication linked to project P “is supplemented by” a dataset D. Dataset D will get the link to project P. The relationships considered for this procedure are “isSupplementedBy” and “isSupplementTo”.
<p align="center">
<img loading="lazy" alt="Project Propagation" src={require('../../assets/img/enrichment/propagation_resulttoproject.png').default} width="40%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>
* Research product to RC/RI through organization propagation. The manager of the RC/RI can specify a set of organizations whose product are relevant for the
community.
Each research product having such a relation of affiliation with at least one organization relevant for the RC/RI will be linked to it.
<p align="center">
<img loading="lazy" alt="Research product to community through organization propagation" src={require('../../assets/img/enrichment/propagation_resulttocommunitythroughorganization.png').default}
width="50%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>
* Research product to RC/RI through semantic relation: extends the set of products linked to a RC/RI by exploiting strong semantic relationships between the research products;
e.g. if a research product R1 is associated to the community C and is supplemented by a research product R2 then R2 will be linked to the community. The relationships considered for this procedure are “isSupplementedBy” and “supplements”.
<p align="center">
<img loading="lazy" alt="Research product to community through semantic relation propagation" src={require('../../assets/img/enrichment/propagation_resulttocommunitythroughsemrel.png').default} width="40%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>
* ORCID identifiers to research product through semantic relation. This propagation enriches the research products by adding ORCID identifiers to authors. The added ORCID will be marked as "potential" since they have been inserted through propagation.
The process considers the set of overlapping authors between research products (R1 and R2) linked with a strong semantic relationship (IsSupplementedBy, IsSupplementTo).
For each author A in the overlapping set, if R1 provides the ORCID value for A and R2 does not, then the author A in R2 will be enriched with the information of the ORCID found in R1.
<p align="center">
<img loading="lazy" alt="Orcid propation through semantic relation" src={require('../../assets/img/enrichment/propagation_orcid.png').default} width="40%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>
* affiliation to organization through institutional repository. This propagation adds one "hasAuthorInstitution" relationship (and its inverse)
between a research product R and Organization O,
if R was collected from a datasource D with type institutional repository, and D was provided by O.
<p align="center">
<img loading="lazy" alt="Affiliation propagation through institutional repository" src={require('../../assets/img/enrichment/propagation_affiliationistrepo.png').default} width="40%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>
* affiliation to organization through semantic relation. This propagation adds one "hasAuthorInstitution" relationship (and its inverse) between a
research product R and an Organization O,
if R has an affiliation relation with an organization O1 that is in relation "isChildOf" with O.
<p align="center">
<img loading="lazy" alt="Affiliation propagation through semantic relation" src={require('../../assets/img/enrichment/propagation_organizationsemrel.png').default} width="40%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>
The algorithm exploits only the organization leaves that are in a "IsChildOf" relation with another organization. So far one single step is done
<p align="center">
<img loading="lazy" alt="propagation strategy" src={require('../../assets/img/enrichment/organization_tree.png').default} width="40%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>

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# Deduplication
The OpenAIRE Graph is populated by aggregating metadata records from distinct data sources whose content typically overlaps. For example, the collection of article metadata records from publisher' archives (e.g. Frontiers, Elsevier, Copernicus) and from pre-print platforms (e.g. ArXiv.org, UKPubMed, BioarXiv.org). In order to support monitoring of science, the OpenAIRE Graph implements record deduplication and merge strategies, in such a way the scientific production can be consistently statistically represented. Such strategies reflect the following intuition behind OpenAIRE monitoring: "Two metadata records are equivalent when they describe the same research product, hence they feature compatible resource types, have the same title, the same authors, or, alternatively, the same PID". Finally, groups of duplicates can be whitelisted or blacklisted, in order to manually refine the quality of this strategy.
It should be noticed that publication dates do not make a difference, as different versions of the same product can be published at different times; e.g. the pre-print and a published version of a scientific article, which should be counted as one object; abstracts, subjects, and other possible related fields, are not used to strengthen similarity, due to their heterogeneity or absence across different data sources. Moreover, even when two products are indicated as one a new version of the other, the presence of different authors will not bring them into the same group, to avoid unfair distribution of scientific reward.
Groups of duplicates are finally merged into a new "representative record", having its own id, embedding properties of the merged records and carrying provenance information about the data sources and the relative "instances", i.e. manifestations of the products, together with their resource type, access rights, and publishing date.
## Methodology overview
The deduplication process can be divided into five different phases:
* Collection import
* Candidate identification (clustering)
* Duplicates identification (pair-wise comparisons)
* Duplicates grouping (transitive closure)
* Relation redistribution
<p align="center">
<img loading="lazy" alt="Deduplication Workflow" src={require('../../assets/img/deduplication-workflow.png').default} width="100%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>
[//]: # (Link to the image: https://docs.google.com/drawings/d/1lLLSU3wsWighmxGQMNMZbgP3mg3BfDVAGVLwt4_OFA8/edit?usp=sharing)
### Collection import
The nodes in the graph represent entities of different types. This phase is responsible for identifying all the nodes with a given type and make them available to the subsequent phases representing them in the deduplication record model.
### Candidate identification (clustering)
Clustering is a common heuristics used to overcome the N x N complexity required to match all pairs of objects to identify the equivalent ones. The challenge is to identify a [clustering function](./clustering-functions) that maximizes the chance of comparing only records that may lead to a match, while minimizing the number of records that will not be matched while being equivalent. Since the equivalence function is to some level tolerant to minimal errors (e.g. switching of characters in the title, or minimal difference in letters), we need this function to be not too precise (e.g. a hash of the title), but also not too flexible (e.g. random ngrams of the title). On the other hand, reality tells us that in some cases equality of two records can only be determined by their PIDs (e.g. DOI) as the metadata properties are very different across different versions and no [clustering function](./clustering-functions) will ever bring them into the same cluster.
### Duplicates identification (pair-wise comparisons)
Pair-wise comparisons are conducted over records in the same cluster following the strategy defined in the decision tree. A different decision tree is adopted depending on the type of the entity being processed.
To further limit the number of comparisons, a sliding window mechanism is used: (i) records in the same cluster are lexicographically sorted by their title, (ii) a window of K records slides over the cluster, and (iii) records ending up in the same window are pair-wise compared. The result of each comparison produces a similarity relation when the pair of record matches. Such relations will be consequently used as input for the duplicates grouping stage.
### Duplicates grouping (transitive closure)
Once the similarity relations between pairs of records are drawn, the groups of equivalent records are obtained (transitive closure, i.e. “mesh”). From such sets a new **representative record** is obtained, which inherits properties from the merged records and keeps track of their provenance.
### Relation redistribution
Relations involved in nodes identified as duplicated are eventually marked as virtually deleted and used as template for creating a new relation pointing to the new representative record.
Note that nodes and relationships marked as virtually deleted are not exported.
<p align="center">
<img loading="lazy" alt="Deduplication Workflow" src={require('../../assets/img/dedup-relation-fixup.png').default} width="75%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>
[//]: # (Link to the image: https://docs.google.com/drawings/d/1cDEuVhWnSO8lUZs_Nd748vKfIPxg10jbwKSVZlv33Mg/edit?usp=sharing)

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---
sidebar_position: 2
---
# Organizations
The organizations in OpenAIRE are aggregated from different registries (e.g. CORDA, OpenDOAR, Re3data, ROR). In some cases, a registry provides organizations as entities with their own persistent identifier. In other cases, those organizations are extracted from other main entities provided by the registry (e.g. datasources, projects, etc.).
The deduplication of organizations is enhanced by the [OpenOrgs](https://orgs.openaire.eu), a tool that combines an automated approach for identifying duplicated instances
of the same organization record with a "humans in the loop" approach, in which the equivalences produced by a duplicate identification algorithm are suggested to data curators, in charge for validating them.
The data curation activity is twofold, on one end pivots around the disambiguation task, on the other hand assumes to improve the metadata describing the organization records
(e.g. including the translated name, or a different PID) as well as defining the hierarchical structure of existing large organizations (i.e. Universities comprising its departments or large research centers with all its sub-units or sub-institutes).
Duplicates among organizations are therefore managed through three different stages:
* *Creation of Suggestions*: executes an automatic workflow that performs the deduplication and prepare new suggestions for the curators to be processed;
* *Curation*: manual editing of the organization records performed by the data curators;
* *Creation of Representative Organizations*: executes an automatic workflow that creates curated organizations and exposes them on the OpenAIRE Graph by using the curators' feedback from the OpenOrgs underlying database.
The next sections describe the above mentioned stages.
### Creation of Suggestions
This stage executes an automatic workflow that faces the *candidate identification* and the *duplicates identification* stages of the deduplication to provide suggestions for the curators in the OpenOrgs.
#### Candidate identification (clustering)
To match the requirements of limiting the number of comparisons, OpenAIRE clustering for organizations aims at grouping records that would more likely be comparable.
It works with four functions:
* *URL-based function*: the function generates the URL domain when this is provided as part of the record properties from the organization's `websiteurl` field;
* *Title-based functions*:
* generate strings dependent to the keywords in the `legalname` field;
* generate strings obtained as an alternation of the function prefix(3) and suffix(3) (and vice versa) on the first 3 words of the `legalname` field;
* generate strings obtained as a concatenation of ngrams of the `legalname` field;
#### Duplicates identification (pair-wise comparisons)
For each pair of organization in a cluster the following strategy (depicted in the figure below) is applied.
The comparison goes through the following decision tree:
1. *grid id check*: comparison of the grid ids. If the grid id is equivalent, then the similarity relation is drawn. If the grid id is not available, the comparison proceeds to the next stage;
2. *early exits*: comparison of the numbers extracted from the `legalname`, the `country` and the `website` url. No similarity relation is drawn in this stage, the comparison proceeds only if the compared fields verified the conditions of equivalence;
3. *city check*: comparison of the city names in the `legalname`. The comparison proceeds only if the legalnames shares at least 10% of cities;
4. *keyword check*: comparison of the keywords in the `legalname`. The comparison proceeds only if the legalnames shares at least 70% of keywords;
5. *legalname check*: comparison of the normalized `legalnames` with the `Jaro-Winkler` distance to determine if it is higher than `0.9`. If so, a similarity relation is drawn. Otherwise, no similarity relation is drawn.
<p align="center">
<img loading="lazy" alt="Organization Decision Tree" src={require('../../assets/img/decisiontree-organization.png').default} width="100%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>
[//]: # (Link to the image: https://docs.google.com/drawings/d/1YKInGGtHu09QG4pT2gRLEum4LxU82d4nKkvGNvRQmrg/edit?usp=sharing)
### Data Curation
All the similarity relations drawn by the algorithm involving the decision tree are exposed in OpenOrgs, where are made available to the data curators to give feedbacks and to improve the organizations metadata.
A data curator can:
* *edit organization metadata*: legalname, pid, country, url, parent relations, etc.;
* *approve suggested duplicates*: establish if an equivalence relation is valid;
* *discard suggested duplicates*: establish if an equivalence relation is wrong;
* *create similarity relations*: add a new equivalence relation not drawn by the algorithm.
Note that if a curator does not provide a feedback on a similarity relation suggested by the algorithm, then such relation is considered as valid.
### Creation of Representative Organizations
This stage executes an automatic workflow that faces the *duplicates grouping* stage to create representative organizations and to update them on the OpenAIRE Graph. Such organizations are obtained via transitive closure and the relations used comes from the curators' feedback gathered on the OpenOrgs underlying Database.
#### Duplicates grouping (transitive closure)
Once the similarity relations between pairs of organizations have been gathered, the groups of equivalent organizations are obtained (transitive closure, i.e. “mesh”). From such sets a new representative organization is obtained, which inherits all properties from the merged records and keeps track of their provenance.
The IDs of the representative organizations are obtained by the OpenOrgs Database that creates a unique ``openorgs`` ID for each approved organization. In case an organization is not approved by the curators, the ID is obtained by appending the prefix ``pending_org`` to the MD5 of the first ID (given their lexicographical ordering).

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---
sidebar_position: 1
---
# Research products
Duplicates among research products are identified among results of the same
type (publications, datasets, software, other research products). If two
duplicate research products are aggregated one as a dataset and one as a
software, for example, they will never be compared and they will never be
identified as duplicates.
OpenAIRE supports different deduplication strategies based on the type of
results.
The next sections describe how each stage of the deduplication workflow is faced
for research products.
### Candidate identification (clustering)
To match the requirements of limiting the number of comparisons, OpenAIRE
clustering for research products works with two different strategies based on
entity types:
#### Software
* *Title extraction functions*:
two clustering functions are applied to the title (normalized, stemming, etc.)
* *stats and suffix prefix of words*: the function generates a key that
depends on (i) number of significant words in the title, (ii) module 10 of
the number of characters of such words, and (iii) a
string
obtained as an alternation of the function prefix(3) and suffix(3) (and
vice-versa) on the first 3 words (2 words if the title only has 2). For
example, the title ``Search for the Standard Model Higgs Boson``
becomes the two keys ``5-3-seaardmod`` and ``5-3-rchstadel``
* *n-grams*: the function generates ngrams from the
title. For example, the
title ``Search for the Standard Model Higgs Boson``
becomes the keys ``tan``, ``sta``, ``ode``, ``mod``, ``ear``, ``hig``,
``igg``, ``sea``
* *DOI extraction function*: the function generates the DOI when this is
provided as part of the record properties
* *URL extraction function*: the function generates the hostname part provided
by the URL of the software, if any
#### Publication, Dataset and Other Research Product
* *PID extraction function*: the function generates the PIDs when at least one
is provided as part of the ``pid`` record properties
* *Author and Title extraction function*: the function generates a key that
depends on (i) the number of authors of the product, with a cap of 21
authors (ii) number of significant words in the title (normalized, stemming,
etc.), divided by 10, and (iii) a string obtained as an alternation of the
function prefix(3) and suffix(3) (and vice versa) on the first 3 words (2
words if the title only has 2).
<br />
For example, a product composed by 197 authors and
titled ``Search for the Standard Model Higgs Boson``
becomes the two keys ``21-0-seaardmod`` and ``21-0-rchstadel``
### Duplicates identification (pair-wise comparisons)
Comparisons in a block are performed using a *sliding window* set to 50 records.
The records are sorted lexicographically on the normalized version of their
titles. The 1st record is compared against all the 50 following ones using the
decision tree, then the second, etc.
Local information about matching records is kept and possibly used to prune
unneeded comparisons, for example once it is known that A equals to both B and
C, B will not be compared against C because the A,B,C group will be anyway
discovered by the global transitive closure step later.
<br />
A different decision tree is adopted depending on the type of the entity being
processed.
Similarity relations drawn in this stage will be consequently used to perform
the duplicates grouping.
#### Publications
For each pair of publications in a cluster the following strategy (depicted in
the figure below) is applied.
The comparison goes through different stages:
1. *trusted pids check*: comparison of the trusted pid lists (in the `pid` field
of the record). If at least 1 pid is equivalent, records match and the
similarity relation is drawn.
2. *instance type check*: comparison of the instance types (indicating the
subtype of the record, i.e. presentation, conference object, etc.). If the
instance types are not compatible then the records does not match. Otherwise,
the comparison proceeds to the next stage
3. *untrusted pids check*: comparison of all the available pids (in the `pid`
and the `alternateid` fields of the record). In every case, no similarity
relation is drawn in this stage. If at least one pid is equivalent, the next
stage will be a *soft check*, otherwise the next stage is a *strong check*.
4. *soft check*: comparison of the record titles with the Levenshtein distance.
If the distance measure is above 0.9 then the similarity relation is drawn.
5. *strong check*: comparison composed by three substages involving the (i)
comparison of the author list sizes and the version of the record to
determine if they are coherent, (ii) comparison of the record titles with the
Levenshtein distance to determine if it is higher than 0.95, (iii) "smart"
comparison of the author lists to check if common authors are more than 60%
in case of titles whose length is greater than 30 chars or more than 90%
otherwise.
<p align="center">
<img loading="lazy" alt="Publications Decision Tree" src={require('../../assets/img/decisiontree-publication.png').default} width="100%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>
[//]: # (Link to the image: https://docs.google.com/drawings/d/19SIilTp1vukw6STMZuPMdc0pv0ODYCiOxP7OU3iPWK8/edit?usp=sharing)
#### Datasets and Other types of research products
For each pair of datasets or other types of research products in a cluster the
strategy depicted in the figure below is applied.
The decision tree is almost identical to the publication decision tree, with the
only exception of the *instance type check* stage. Since such type of record
does not have a relatable instance type, the check is not performed and the
decision tree node is skipped.
<p align="center">
<img loading="lazy" alt="Dataset and Other types of research products Decision Tree" src={require('../../assets/img/decisiontree-dataset-orp.png').default} width="90%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>
[//]: # (Link to the image: https://docs.google.com/drawings/d/1uBa7Bw2KwBRDUYIfyRr_Keol7UOeyvMNN7MPXYLg4qw/edit?usp=sharing)
#### Software
For each pair of software in a cluster the following strategy (depicted in the
figure below) is applied.
The comparison goes through different stages:
1. *DOI pids and URLs check*: comparison of the pids of type DOI and URLs in the
records. If at least 1 DOI is equivalent or 1 URL is equivalent, then records
match and the similarity relation is drawn
2. *title check*: comparison of the record titles with Levenshtein distance,
excluding versioning information.
If the distance is below 0.95 then the records does not match. Otherwise, the
comparison proceeds to the next stage
3. *untrusted DOI check*: comparison of all the available DOIs (in the `pid` and
the `alternateid` fields of the record). If at least 1 DOI is equivalent,
records match and the similarity relation is drawn
4. *authors check*: "smart" comparison of the author lists to check if the two
products share all authors
<p align="center">
<img loading="lazy" alt="Software Decision Tree" src={require('../../assets/img/decisiontree-software.png').default} width="85%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>
[//]: # (Link to the image: https://docs.google.com/drawings/d/19gd1-GTOEEo6awMObGRkYFhpAlO_38mfbDFFX0HAkuo/edit?usp=sharing)
### Duplicates grouping
The aim of the final stage is the creation of records that group all the
equivalent entities discovered pairwise by the previous step. This is done in
multiple phases.
#### Transitive closure
As the concluding step of duplicate identification, a transitive closure is
performed against similarity relations to identify complete groups of duplicated
records (cliques). If a group exceeds 200 elements, only the first 200 elements
are included in the group, while the remaining elements are kept ungrouped.
#### Selection of the pivot record
Each group of duplicate records needs to be identified in the final graph with
an OpenAIRE identifier, derived from a record of the group known as the _pivot
record_. It is determined after sorting the group of duplicate records by the
following criteria:
1. Records with identifiers from a [PID authority](/data-model/pids-and-identifiers#pid-authorities).
2. Records chosen as pivots in the graph's previous generations.
3. Publications from CrossRef or datasets from DataCite.
4. Records with an earlier date of acceptance.
5. Records with smaller IDs in lexicographical order.
The first sorting criterion is possible because a state table, called "pivot
history", is maintained across graph generations. It keeps track of which
records were used as pivot records in what graph, guaranteed to retain data for
the last 12 months.
#### Creation of representative records
The representative record, also known as the "dedup record", replaces the group
of deduplicated records in the graph.
##### OpenAIRE identifier of the representative record
The OpenAIRE identifier of the representative record is generated based on the
identifier of the record chosen as the pivot of the group:
- if the pivot record comes from a "PID authority", the identifier of the
representative record is the same, but the "PID Type Prefix" part of the
identifier is modified to append ``_dedup``.<br/>
For example ```doi_________::d5021b53204e4fdeab6ff5d5bc468032``` will
become ```doi_dedup___::d5021b53204e4fdeab6ff5d5bc468032```
- otherwise the "PID Type Prefix" part will be set to the fixed value
``dedup_wf_002``, and the following hash will be calculated as the MD5 hash of
the entire raw id of the pivot record.<br/>
For example ``DansKnawCris::0829b5191605bdbea36d6502b8c1ce1g`` will
become ``dedup_wf_002::345e5d1b80537b0d0e0a49241ae9e516``
##### Content of the representative record
The representative records inherits properties from the records it merges
and tracks their provenance. Whenever possible, it preserves all data from the
merged records, such as the ``instance`` field. In cases where a specific value
must be chosen, the most representative one is selected. For example, for the
"dateofacceptance" field, the earliest value is chosen.
##### Merged and singleton representative record
Changes in metadata content or graph construction may lead to cases where
representative records disappear from the graph:
1. When two or more representative records are merged into one representative
record. Put it other terms this happens when a group of duplicated records
contains multiple records formerly used as pivot record.
2. When a record chosen as a pivot record leaves its group and remains alone.
3. When a record chosen as a pivot record is no longer published by its data
source (deletion of the metadata record).
To address these cases, the pivot history table ensures the visibility of
disappearing representative records for the first two cases. Specifically:
1. In the case of merged representative records, the new representative record
and the ones that would be lost are generated and linked as part of the new
representative record.
2. In the case of a record no longer serving as a pivot, a representative record
is generated and linked only with that record.
This approach ensures that users can access representative records that would
otherwise be lost.

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# Affiliation matching
***Short description:*** The goal of the affiliation matching module is to match affiliation strings (identified in full-text PDFs or in scholarly databases, such as Crossref) with persistent organization identifiers (e.g., ROR identifiers).
Depending on the data source, we currently employ two distinct methodologies:
- The [first](#algorithmic-details-of-the-first-method) method revolves around affiliations extracted from PDF and XML documents, which are subsequently matched with organizations within the OpenAIRE database.
- The [second](#algorithmic-details-of-the-second-method) concerns affiliations retrieved from platforms such as Crossref, PubMed, and Datacite, and are matched to organizations of the ROR database.
## Algorithmic details of the first method
*The buckets concept*
In order to get the best possible results, the algorithm should compare every affiliation with every organization. However, this approach would be very inefficient and slow, because it would involve the processing of the cartesian product (all possible pairs) of millions of affiliations and thousands of organizations. To avoid this, IIS has introduced the concept of buckets. A bucket is a smaller group of affiliations and organizations that have been selected to be matched with one another. The matching algorithm compares only these affiliations and organizations that belong to the same bucket.
*Affiliation matching process*
Every affiliation in a given *bucket* is compared with every organization in the same bucket multiple times, each time by using a different algorithm (*voter*). Each *voter* is assigned a number (match strength) that describes the estimated correctness of the result of its comparison. All the affiliation-organization pairs that have been matched by at least one *voter*, will be assigned the match strength > 0 (the actual number depends on the voters, its calculation method will be shown later).
It is very important for the algorithm to group the affiliations and organizations properly i.e. the ones that have a chance to match should be in the same *bucket*. To guarantee this, the affiliation matching module allows to create different methods of dividing the affiliations and organizations into *buckets*, and to use all of these methods in a single matching process. The specific method of grouping the affiliations and organizations into *bucket* and then joining them into pairs is carried out by the service called *Joiner*.
Every *joiner* can be linked with many different *voters* that will tell if the affiliation-organization pairs joined match or not. By providing new *joiners* and *voters* one can extend the matching algorithm with countless new methods for matching affiliations with organizations, thus adjusting the algorithm to his or her needs.
All the affiliations and organizations are sequentially computed by all the *matchers*. In every *matcher* they are grouped by some *joiner* in pairs, and then these pairs are processed by all the *voters* in the *matcher*. Every affiliation-organization pair that has been matched at least once is assigned the match strength that depends on the match strengths of the *voters* that pointed the given pair is a match.
**NOTE:** There can be many organizations matched with a given affiliation, each of them matched with a different match strength. The user of the module can set a match strength threshold which will limit the results to only those matches that have the match strength greater than the specified threshold.
*Calculation of the match strength of the affiliation-organization pair matched by multiple matchers*
It often happens that the given affiliation-organization pair is returned as a match by more than one matcher, each time with a different match strength. In such a case **the match with the highest match strength will be selected**.
*Calculation of the match strength of the affiliation-organization pair within a single matcher*
Every voter has a match strength that is in the range (0, 1]. **The voter match strength says what the quotient of correct matches to all matches guessed by this voter is, and is based on real data and hundreds of matches prepared by hand.**
The match strength of the given affiliation-organization pair is based on the match strengths of all the voters in the matcher that have pointed that the pair is a match. It will always be less than or equal to 1 and greater than the match strength of each single voter that matched the given pair.
The total match strength is calculated in such a way that each consecutive voter reduces (by its match strength) the gap of uncertainty about the correctness of the given match.
***Parameters:***
* input
* input_document_metadata: [ExtractedDocumentMetadata](https://github.com/openaire/iis/blob/master/iis-schemas/src/main/avro/eu/dnetlib/iis/metadataextraction/ExtractedDocumentMetadata.avdl) avro datastore location. Document metadata is the source of affiliations.
* input_organizations: [Organization](https://github.com/openaire/iis/blob/master/iis-schemas/src/main/avro/eu/dnetlib/iis/importer/Organization.avdl) avro datastore location.
* input_document_to_project: [DocumentToProject](https://github.com/openaire/iis/blob/master/iis-schemas/src/main/avro/eu/dnetlib/iis/importer/DocumentToProject.avdl) avro datastore location with **imported** document-to-project relations. These relations (alongside with inferred document-project and project-organization relations) are used to generate document-organization pairs which are used as a hint for matching affiliations.
* input_inferred_document_to_project: [DocumentToProject](https://github.com/openaire/iis/blob/master/iis-schemas/src/main/avro/eu/dnetlib/iis/referenceextraction/project/DocumentToProject.avdl) avro datastore location with **inferred** document-to-project relations.
* input_project_to_organization: [ProjectToOrganization](https://github.com/openaire/iis/blob/master/iis-schemas/src/main/avro/eu/dnetlib/iis/importer/ProjectToOrganization.avdl) avro datastore location. These relations (alongside with infered document-project and document-project relations) are used to generate document-organization pairs which are used as a hint for matching affiliations
* output
* [MatchedOrganization](https://github.com/openaire/iis/blob/master/iis-wf/iis-wf-affmatching/src/main/resources/eu/dnetlib/iis/wf/affmatching/model/MatchedOrganization.avdl) avro datastore location with matched publications with organizations.
***Limitations:*** -
***Environment:***
Java, Spark
***References:*** -
***Authority:*** ICM &bull; ***License:*** AGPL-3.0 &bull; ***Code:*** [CoAnSys/affiliation-organization-matching](https://github.com/CeON/CoAnSys/tree/master/affiliation-organization-matching)
## Algorithmic details of the second method
*Categorization*
The affiliations' strings are imported and undergo cleaning, tokenization, and removal of stopwords. Similar to the “buckets concept” of the first method, the goal is to split the affiliation strings, as well as the ROR organizations, into coherent groups. To achieve this, data preprocessing has already been conducted on ROR's data, involving the analysis of word frequency ('keywords') within the legal names of ROR's organizations to define specific categories. These categories include universities and institutes, laboratories, hospitals, companies, museums, governments, foundation, and rest organizations. ROR's organizations have subsequently been assigned to these categories based on their legal names. The algorithm employs a similar approach to categorize affiliations into these same groups.
*String Shortening*
The objective is to extract pertinent details from each affiliation string. The algorithm divides the string whenever a comma (,) or semicolon (;) is detected. It then applies specific 'rules' to these segments and retains only those containing relevant keywords. Additionally, it trims down the segments by preserving words in proximity to particular keywords like "university," "institute," "laboratory," or "hospital." As a result, the average string length is reduced from 90 to 35 characters.
*Matching with ROR's Database*
The algorithm checks whether a substring containing a keyword is linked to a legal name or to an alternative name in the organizations listed in the ROR's database. In order to identify the most accurate match, the algorithm employs cosine similarity.. Although alternative methods like Levenshtein Distance or Jaro-Winkler Distance were considered for measuring string similarity, it was concluded that cosine similarity was the most appropriate choice for this specific application.
*Refinement*
If multiple matches are found above the desired similarity thresholds, the algorithm performs another check. It applies cosine similarity between the organizations found in the ROR's database and the original affiliation string. This comparison takes into account additional information present in the original affiliation, such as addresses or city names. The algorithm aims to identify the best fit among the potential matches. Note that the case where two or more different organizations share the same name is also considered.
***Parameters:***
* input
* source of affiliations: JSON Crossref or XML Pubmed or Parquet DataCite files.
* organizations: [dix_acad.pkl](https://github.com/openaire/affro/blob/main/dictionaries/dix_acad.pkl), [dix_mult](https://github.com/openaire/affro/blob/main/dictionaries/dix_mult.pkl), [dix_city](https://github.com/openaire/affro/blob/main/dictionaries/dix_city.pkl), [dix_country](https://github.com/openaire/affro/blob/main/dictionaries/dix_country.pkl) (four pickled dictionaries with keys legalnames and alternativenames of organizations in the ROR database.)
* similarity thresholds: simU for universities, simG for other organizations (default values are simU = 0.64, simG = 0.87).
cument-organization pairs which are used as a hint for matching affiliations
* output
* JSON file with ROR ids of organizations and corresponding similarity scores for each DOI.
***Limitations:*** -
***Environment:***
Python
***References:*** -
***Authority:*** OpenAIRE &bull; ***License:*** AGPL-3.0 &bull; ***Code:*** [AffRo](https://github.com/openaire/affro)

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# Citation matching
***Short description:*** During a citation matching task, bibliographic entries are linked to the documents that they reference. The citation matching module - one of the modules of the Information Inference Service (IIS) - receives as an input a list of documents accompanied by their metadata and bibliography. Among them, it discovers links described above and returns them as a list. It is worth mentioning that the implemented algorithm has been described in detail in [arXiv:1303.6906](https://arxiv.org/abs/1303.6906)[1].
***Algorithmic details:***
*General description*
The algorithm used in citation matching task consists of two phases. In the first one, for each citation string a set of potentially matching documents is retrieved using a heuristic. In the second one, the metadata of these documents is analysed in order to assess which of them is the most similar to given citation. We assume that citations are parsed, i.e. fragments containing meaningful pieces of metadata information are marked in a special way. Note that in the IIS system, the citation parsing step is executed by another module. The following metadata fields are used by the described solution:
* an author,
* a title,
* a journal name,
* pages,
* a year of publication.
*Heuristic matching*
The heuristic is based on indexing of document metadata by their author names. For each citation we extract author names and try to find documents in the index which have the same author entries. As spelling errors and inaccuracies commonly occur in citations, we have implemented approximate index which enables retrieval of entities with edit distance less than or equal 1.
*Strict matching*
In this step, all the potentially matching pairs obtained in the heuristic step are evaluated and only the most probable ones are returned as the final result. As citations tend to contain spelling errors and differ in style, there is a need to introduce fuzzy similarity measures fitted to the specifics of various metadata fields. Most of them compute a fraction of tokens or trigrams that occur in both fields being compared. When comparing journal
names, we have taken longest common subsequence (LCS) of two strings into consideration. This can be seen as an instance of the assignment problem with some refinements added. The overall similarity of two citation strings is obtained by applying a linear Support Vector Machine (SVM) using field similarities as features.
***Parameters:***
* input:
* input_metadata: [ExtractedDocumentMetadataMergedWithOriginal](https://github.com/openaire/iis/blob/master/iis-schemas/src/main/avro/eu/dnetlib/iis/transformers/metadatamerger/ExtractedDocumentMetadataMergedWithOriginal.avdl) avro datastore location with the metadata of both publications and bibliorgaphic references to be matched
* input_matched_citations: [Citation](https://github.com/openaire/iis/blob/master/iis-schemas/src/main/avro/eu/dnetlib/iis/common/citations/Citation.avdl) avro datastore location with citations which were already matched and should be excluded from fuzzy matching
* output: [Citation](https://github.com/openaire/iis/blob/master/iis-schemas/src/main/avro/eu/dnetlib/iis/common/citations/Citation.avdl) avro datastore location with matched publications
***Limitations:*** -
***Environment:***
Java, Spark
***References:***
* Fedoryszak, M., Tkaczyk, D., Bolikowski, Ł. (2013). Large Scale Citation Matching Using Apache Hadoop. In: Aalberg, T., Papatheodorou, C., Dobreva, M., Tsakonas, G., Farrugia, C.J. (eds) Research and Advanced Technology for Digital Libraries. TPDL 2013. Lecture Notes in Computer Science, vol 8092. Springer, Berlin, Heidelberg. [https://doi.org/10.1007/978-3-642-40501-3_37](https://doi.org/10.1007/978-3-642-40501-3_37)
***Authority:*** ICM &bull; ***License:*** AGPL-3.0 &bull; ***Code:*** [CoAnSys/citation-matching](https://github.com/CeON/CoAnSys/tree/master/citation-matching)

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import DocCardList from '@theme/DocCardList';
# Enrichment by mining
**OpenAIRE** collects the full-texts of the publications, in order to apply TDM (Text and Data Mining) algorithms on them and enrich the Graph with inference links.
The collection of the full-texts is handled by the internal **PDF Aggregation Service**. This service uses the publications' urls, from the OpenAIRE Graph and state-of-the-art algorithms, to crawl the web and try to locate and download the full-texts of the open access publications, while focusing on the most recent ones. It respects the servers of the repositories and publishers and avoids overloading them.
The service is orchestrating a distributed execution system, on the cloud, with multiple microservices running in parallel, in order to efficiently process and download a large number of publications. The microservices store the generated report records for the publications, in a database, and the full-texts in an S3 Object Store.
On the publication-page level, it applies text-mining algorithms to analyze the structure of the page, extract the full-text url and download the file. Additionally, it tracks various performance indicators to optimize the crawling speed, during execution.
The PDF Aggregation Service is also capable of bulk-importing full-texts from compatible data sources, which increases the collection speed of full-texts.
The different Text and Data Mining (TDM) algorithms used in the graph-enrichment process are grouped in the following categories.
<DocCardList></DocCardList>

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import DocCardList from '@theme/DocCardList';
# Enrichment by PID
<DocCardList></DocCardList>

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# Enrichment from ORCID
OpenAIRE enhances publication metadata by incorporating author information from ORCID. This involves adding persistent
identifiers to authors and leveraging ORCID data to improve author disambiguation.
## How does the enrichment work?
The following steps outline how ORCID information is integrated into the OpenAIRE Graph:
### Extracting Author and Work Information and creating ORCID-Work pairs
OpenAIRE extracts the following from ORCID profiles:
* Author information: ORCID, family name, given name, other names, credit name
* Work information: Persistent identifiers (DOI, PMC, PMID, arXiv, handle)
For each work identified by a persistent identifier (PID), a pair is created linking the ORCID to the work PID. For
example, if an ORCID profile (orcid1) has a DOI (doi1) and a PMC (pmc1) associated with it, the following pairs are generated:
- P1: `<orcid1, doi1>`
- P2: `<orcid1, pmc1>`
### Grouping by work persistent identifier
ORCID-Work pairs are grouped by the work's persistent identifier to identify multiple authors contributing to the same work.
Two ORCIDs (orcid1 and orcid2) associated with the same DOI (doi1), result in structures like:
* `<doi1, [orcid1, orcid2]>`
**Note:**
* The term "orcidx" refers to a structure containing the ORCID identifier along with the author's name information
(family name, given name, other names, and credit name) as extracted from the ORCID profile.
* The term "doix" refer to a structure
containing the schema and value of the persistent identifier. In case of the example "doix" : <"doi","10....">
### Matching with the Graph result and enriching the author metadata
For each persistent identifier pair, OpenAIRE searches for a corresponding result in the Graph based on the pair's
schema and value. Once a match is found, OpenAIRE attempts to identify the corresponding authors within the result by
comparing them to the authors listed in the ORCID profile. This process employs an Algorithm called *author name disambiguation*
to establish the correct matches. Successful matches allow OpenAIRE to enrich the result's author information with the
ORCID identifier from the profile.
### Author name disambiguation algorithm
The process involves comparing authors from two sets: those extracted from the graph (graph authors) and those derived
from ORCID profiles (ORCID authors) that share the same persistent identifier pair.
For each graph author, the algorithm iterates through the following matching strategies, ordered by decreasing confidence:
- Exact fullname match: If the full name of a graph author exactly matches the full name (constructed by concatenating the author given name and family name) of one author in the ORCID list, a match is found.
- Exact reversed fullname match: Similar to the previous strategy, but the ORCID full name is constructed by concatenating family name and given name.
- Ordered token match: Author names are tokenized into individual words. These tokens are then ordered and compared for matches or abbreviations. This strategy is applied to names with at least two words and such that the name word difference is two or less. This strategy allow for variability in the name. (some examples will be provided in the following)
- Exact match of ORCID credit name: If the graph author's full name matches an ORCID author's credit name, a match is considered.
- Exact match of ORCID other names: The graph author's full name is compared to each other name listed in the ORCID profile.
Upon identifying a match, the graph author's information is enriched with the corresponding ORCID data, and the matched
ORCID author is removed from the comparison list. This process continues until no further matches can be found.
By applying this multi-faceted approach, OpenAIRE aims to maximize the accuracy of author identification and linking.
#### Author name disambiguation example
Consider the following author lists
- Graph List: Robert Stein, Sjoert van Velzen, Marek Kowalski, Anna Franckowiak, James C. A. Miller-Jones, Sara Frederick, Itai Sfaradi, Assaf Horesh, Albert Kong, Ryan Foley
- Orcid List: Marek Kowalski, Itai Sfaradi, James Carl Miller-Jones, Assaf Horesh, Kong Albert, Ryan Foley
The graph list contains the full names of the authors as found in the metadata. Any potential ambiguities in splitting names into components (like first name and last name) are addressed by the first three steps.
The ORCID list names are expressed as the concatenation of the given name and the family name as provided in the ORCID profile
(i.e. "Kong Alber => Kong is given name and Albert is family name in the ORCID profile) For simplicity, other names and credit names are excluded from this list, since the corresponding strategies can be assimilated to an exact match comparison.
Algorithm Application
First of all the *Exact fullname match* strategy is applied.
Each graph author's full name is compared to every full name in the ORCID list until a match is found. A full name in the
ORCID list is constructed by concatenating the given name and family name in the order provided.
If an exact match is found, the ORCID identifier is used to enrich the corresponding graph's author record, and the ORCID author
is removed from the list for subsequent comparisons.
By applying this strategy we can find a match for Marek Kowalski, Itai Sfaradi, Assaf Horesh, Ryan Foley
Then the *Exact reverse fullname match* strategy is applied on the graph and orcid list that have not been match in the previous step:
- Graph List: Robert Stein, Sjoert van Velzen, Anna Franckowiak, James C. A. Miller-Jones, Sara Frederick, Albert Kong
- Orcid List: James Carl Miller-Jones, Kong Albert
The process is similar to step one, but the ORCID fullname is constructed by reversing the order of given name and family name.
This step accommodates variation in name formatting. As before if an exact match is found, the ORCID identifier is used to update the metadata of the
graph author, and the ORCID author is removed from the list for subsequent comparisons. With this strategy we can find a match for
Albert Kong.
The third step is the application of the *Oredered token match* strategy to the remaining authors to be matched. Before going to see
a running example, let us describe how the strategy works.
The tokens from the two lists are pairwise compared. The outcome of each comparison falls into one of three categories:
- No Match: This occurs when the initial characters of the compared tokens differ, or when the entire words don't match despite sharing the same starting character. A mismatch indicates that the authors are different, and the comparison process terminates.
- Short Match: A short match happens when both tokens begin with the same character, but one token consists solely of that character.
- Long Match: Exact correspondence between the two compared words
When a no match is encountered due to different initial characters, the algorithm proceeds
to compare the next token in the list with the lexicographically lower preceding token. This allows to be tolerant with missing
words in one of the two names.
A successful match (short or long) moves the comparison of the subsequent tokens in both lists.
This iterative process continues until either a no match is determined or both token lists have been exhausted.
If both lists have been exhausted, a match is found if:
- At list one long match exists
- The sum of short and long matches equals the length of the shorter token list, indicating that all the words
in the shorter list have a match in the longer one.
Going back to the example, the authors that remain to find a match for are:
- Graph List: Robert Stein, Sjoert van Velzen, Anna Franckowiak, James C. A. Miller-Jones, Sara Frederick
- Orcid List: James Carl Miller-Jones
Let us consider directly the names that can be matched by this strategy:
graph name = James C. A. Miller-Jones
orcid name = Carl James Miller-Jones
So the two names are broken down into individual words or token and sorted alphabetically to standardize the comparison process.
graph = A C James Miller-Jones
orcid = Carl James Miller-Jones
The comparison process works as follows:
- *A* and *Carl* are compared. No match since the initial characters are different. The graph list will be moved one step ahead for the next comparison
- *C* and *Carl* are compared. A short match is detected, since both start with the same character and the graph word is only that character. Both the lists will be moved one step ahead for the next comparison
- *James* and *James* are compared. A long match is detected. Both the lists will be moved one step ahead for the next comparison
- *Miller-Jones* and *Miller-Jones* are compared. A long match is found. The lists are exhausted and the computation ends.
Since at list one long match exists and the sum of long and short matches equals the length of the shorter list, the match is confirmed and
the graph author can be enriched with the ORCID information.
The ORCID list remains empty after the application of the third strategy and the author name disambiguation process ends.
Note: the application of the remaining two strategies can be remanded to the application of the *Exact name match* strategy.
Note: Even if the third strategy can subsume the first two, the reason they are applied before the third is for efficiency.
In this way, in fact,
we can claim a match as soon as the first pair of matching names is found. Applying only the third strategy, all the comparisons should be done and
a way to determine the best match should be found before claiming a match.
Example:
graph = Mario Enrico Rossi, Mario Rossi
ORCID = Mario Rossi
Applying only the third strategy, we would associate Mario Rossi's ORCID to Mario Fabrizio Rossi if this one was first in the author list.

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# Finalisation
At the very end of the graph production workflow, a step is dedicated to perform certain finalisation operations, that we describe in this page,
aiming to improve the overall quality of the data.
The output of this final step is the final version of the OpenAIRE Graph.
## Filtering
Bibliographic records that do not meet minimal requirements for being part of the OpenAIRE Graph are eliminated during this phase.
Currently, the only criteria applied horizontally to the entire graph aims at excluding research products whose title is not meaningful for citation purposes.
Then, different criteria are applied in the pre-processing of specific sub-collections:
* [Crossref filtering](/graph-production-workflow/aggregation/non-compatible-sources/crossref_unpaywall#crossref-filtering)
## Country cleaning
This phase is responsible for removing the country information from research products that match specific criteria. The need for this phase is driven by the fact that some datasources, although referred of national pertinence, they contain material that is not always related to the given country.

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# Graph production workflow
OpenAIRE collects metadata records from more than 70K scholarly communication sources from all over the world, including Open Access institutional repositories, data archives, journals. All the metadata records (i.e. descriptions of research products) are put together in a data lake, together with records from Crossref, Unpaywall, ORCID, ROR, and information about projects provided by national and international funders. Dedicated inference algorithms applied to metadata and to the full-texts of Open Access publications enrich the content of the data lake with links between research products and projects, author affiliations, subject classification, links to entries from domain-specific databases. Duplicated organisations and research products are identified and merged together to obtain an open, trusted, public resource enabling explorations of the scholarly communication landscape like never before.
<p align="center">
<img loading="lazy" alt="Data provision" src={require('../assets/img/architecture.png').default} width="100%" className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
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# Indexing
The final version of the OpenAIRE Graph is indexed on a Solr server that is used by the OpenAIRE portals ([EXPLORE](https://explore.openaire.eu), [CONNECT](https://connect.openaire.eu), [PROVIDE](https://provide.openaire.eu)) and APIs, the latter adopted by several third-party applications and organizations, such as:
* The OpenAIRE Graph APIs and Portals will offer to the EOSC (European Open Science Cloud) an Open Science Resource Catalogue, keeping an up to date map of all research products (publications, datasets, software), services, organizations, projects, funders in Europe and beyond.
* DSpace & EPrints repositories can install the OpenAIRE plugin to expose OpenAIRE compliant metadata records via their OAI-PMH endpoint and offer to researchers the possibility to link their depositions to the funding project, by selecting it from the list of project provided by OpenAIRE.
* EC participant portal (Sygma - System for Grant Management) uses the OpenAIRE API in the “Continuous Reporting” section. Sygma automatically fetches from the OpenAIRE Search API the list of publications and datasets in the OpenAIRE Graph that are linked to the project. The user can select the research products from the list and easily compile the continuous reporting data of the project.
* ScholExplorer is used by different players of the scholarly communication ecosystem. For example, [Elsevier](https://www.elsevier.com/authors/tools-and-resources/research-data/data-base-linking) uses its API to make the links between
publications and datasets automatically appear on ScienceDirect.
ScholExplorer indexes the links among the four major types of research products (API v3) available in the OpenAIRE Graph and makes them available through an HTTP API that allows
to search them by the following criteria:
* Links whose source object has a given PID or PID type;
* Links whose source object has been published by a given data source ("data source as publisher");
* Links that were collected from a given data source ("data source as provider").

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# Field of Science

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# Citation-based impact indicators
This page summarises all calculated citation-based impact indicators, provided by [BIP!](https://bip.imsi.athenarc.gr/), which are included in the [bipIndicators](../../data-model/entities/other#bipindicators) property (found under the [indicators](../../data-model/entities/research-product#indicators) property of the reseach product).
It should be noted that the citation-based impact indicators are being calculated on the level of the research output.
Below we explain their main intuition, the way they are calculated, and their most important limitations, in an attempt help avoiding common pitfalls and misuses.
## Citation Count (CC) <small><span className="bip-indicator-names">&bull; influence_alt</span></small>
***Short description:***
This is the most widely used citation-based impact indicator, which sums all citations received by each article.
Citation count can be viewed as a measure of a publication's overall (citation-based) impact, since it conveys the number of other works that directly
drew on it.
***Algorithmic details:***
The citation count of a
publication $i$ corresponds to the in-degree of the corresponding node in the underlying citation network: $s_i = \sum_{j} A_{i,j}$,
where $A$ is the adjacency matrix of the network (i.e., $A_{i,j}=1$ when paper $j$ cites paper $i$, while $A_{i,j}=0$ otherwise).
***Parameters:*** -
***Limitations:***
OpenAIRE collects data from specific data sources which means that part of the existing literature may not be considered when computing this indicator.
Also, since some indicators require the publication year for their calculation, we consider only research products for which we can gather this information from at least one data source.
***Environment:*** PySpark
***References:*** -
***Authority:*** ATHENA RC &bull; ***License:*** GPL-2.0 &bull; ***Code:*** [BIP! Ranker](https://github.com/athenarc/Bip-Ranker)
## "Incubation" Citation Count (iCC) <small><span className="bip-indicator-names">&bull; impulse</span></small>
***Short description:***
This measure is essentially a time-restricted version of the citation count, where the time window is distinct for each paper, i.e.,
only citations $y$ years after its publication are counted.
***Algorithmic details:***
The "incubation" citation count of a paper $i$ is
calculated as: $s_i = \sum_{j,t_j \leq t_i+y} A_{i,j}$, where $A$ is the adjacency matrix and $t_j, t_i$ are the citing and cited paper's
publication years, respectively. $t_i$ is cited paper $i$'s publication year. iCC can be seen as an indicator of a paper's initial momentum
(impulse) directly after its publication.
***Parameters:***
$y=3$
***Limitations:***
OpenAIRE collects data from specific data sources which means that part of the existing literature may not be considered when computing this indicator.
Also, since some indicators require the publication year for their calculation, we consider only research products for which we can gather this information from at least one data source.
***Environment:*** PySpark
***References:***
* Vergoulis, T., Kanellos, I., Atzori, C., Mannocci, A., Chatzopoulos, S., Bruzzo, S. L., Manola, N., & Manghi, P. (2021, April). Bip! db: A dataset of impact measures for scientific publications. In Companion Proceedings of the Web Conference 2021 (pp. 456-460).
***Authority:*** ATHENA RC &bull; ***License:*** GPL-2.0 &bull; ***Code:*** [BIP! Ranker](https://github.com/athenarc/Bip-Ranker)
## PageRank (PR) <small><span className="bip-indicator-names">&bull; influence</span></small>
***Short description:***
Originally developed to rank Web pages, PageRank has been also widely used to rank publications in citation
networks. In this latter context, a publication's PageRank
score also serves as a measure of its influence.
***Algorithmic details:***
The PageRank score of a publication is calculated
as its probability of being read by a researcher that either randomly selects publications to read or selects
publications based on the references of her latest read. Formally, the score of a publication $i$ is given by:
$$
s_i = \alpha \cdot \sum_{j} P_{i,j} \cdot s_j + (1-\alpha) \cdot \frac{1}{N}
$$
where $P$ is the stochastic transition matrix, which corresponds to the column normalised version of adjacency
matrix $A$, $\alpha \in [0,1]$, and $N$ is the number of publications in the citation network. The first addend
of the equation corresponds to the selection (with probability $\alpha$) of following a reference, while the
second one to the selection of randomly choosing any publication in the network. It should be noted that the
score of each publication relies of the score of publications citing it (the algorithm is executed iteratively
until all scores converge). As a result, PageRank differentiates citations based on the importance of citing
articles, thus alleviating the corresponding issue of the Citation Count.
***Parameters:***
$\alpha = 0.5, convergence\_error = 10^{-12}$
***Limitations:***
OpenAIRE collects data from specific data sources which means that part of the existing literature may not be considered when computing this indicator.
Also, since some indicators require the publication year for their calculation, we consider only research products for which we can gather this information from at least one data source.
***Environment:*** PySpark
***References:***
* Page, L., Brin, S., Motwani, R., & Winograd, T. (1999). The PageRank citation ranking: Bringing order to the web. Stanford InfoLab.
***Authority:*** ATHENA RC &bull; ***License:*** GPL-2.0 &bull; ***Code:*** [BIP! Ranker](https://github.com/athenarc/Bip-Ranker)
## RAM <small><span className="bip-indicator-names">&bull; popularity_alt</span></small>
***Short description:***
RAM is essentially a modified Citation Count, where recent citations are considered of higher importance compared to older ones.
Hence, it better captures the popularity of publications. This "time-awareness" of citations
alleviates the bias of methods like Citation Count and PageRank against recently published articles, which have
not had "enough" time to gather as many citations.
***Algorithmic details:***
The RAM score of each paper $i$ is calculated as follows:
$$
s_i = \sum_j{R_{i,j}}
$$
where $R$ is the so-called Retained Adjacency Matrix (RAM) and $R_{i,j}=\gamma^{t_c-t_j}$ when publication $j$ cites publication
$i$, and $R_{i,j}=0$ otherwise. Parameter $\gamma \in (0,1)$, $t_c$ corresponds to the current year and $t_j$ corresponds to the
publication year of citing article $j$.
***Parameters:***
$\gamma = 0.6$
***Limitations:***
OpenAIRE collects data from specific data sources which means that part of the existing literature may not be considered when computing this indicator.
Also, since some indicators require the publication year for their calculation, we consider only research products for which we can gather this information from at least one data source.
***Environment:*** PySpark
***References:***
* Ghosh, R., Kuo, T. T., Hsu, C. N., Lin, S. D., & Lerman, K. (2011, December). Time-aware ranking in dynamic citation networks. In 2011 ieee 11^{th} international conference on data mining workshops (pp. 373-380). IEEE.
***Authority:*** ATHENA RC &bull; ***License:*** GPL-2.0 &bull; ***Code:*** [BIP! Ranker](https://github.com/athenarc/Bip-Ranker)
## AttRank <small><span className="bip-indicator-names">&bull; popularity</span></small>
***Short description:***
AttRank is a PageRank variant that alleviates its bias against recent publications (i.e., it is tailored to capture popularity).
AttRank achieves this by modifying PageRank's probability of randomly selecting a publication. Instead of using a uniform probability,
AttRank defines it based on a combination of the publication's age and the citations it received in recent years.
***Algorithmic details:***
The AttRank score
of each publication $i$ is calculated based on:
$$
s_i = \alpha \cdot \sum_{j} P_{i,j} \cdot s_j
+ \beta \cdot Att(i)+ \gamma \cdot c \cdot e^{-\rho \cdot (t_c-t_i)}
$$
where $\alpha + \beta + \gamma =1$ and $\alpha,\beta,\gamma \in [0,1]$. $Att(i)$ denotes a recent attention-based score for publication $i$,
which reflects its share of citations in the $y$ most recent years, $t_i$ is the publication year of article $i$, $t_c$ denotes the current
year, and $c$ is a normalisation constant. Finally, $P$ is the stochastic transition matrix.
***Parameters:***
$\alpha = 0.2, \beta = 0.5, \gamma = 0.3, \rho = -0.16, convergence\_error = 10^-{12}$
Note that recent attention is based on the 3 most recent years (including current one).
***Limitations:***
OpenAIRE collects data from specific data sources which means that part of the existing literature may not be considered when computing this indicator.
Also, since some indicators require the publication year for their calculation, we consider only research products for which we can gather this information from at least one data source.
***Environment:*** PySpark
***References:***
* Kanellos, I., Vergoulis, T., Sacharidis, D., Dalamagas, T., & Vassiliou, Y. (2021, April). Ranking papers by their short-term scientific impact. In 2021 IEEE 37th International Conference on Data Engineering (ICDE) (pp. 1997-2002). IEEE.
***Authority:*** ATHENA RC &bull; ***License:*** GPL-2.0 &bull; ***Code:*** [BIP! Ranker](https://github.com/athenarc/Bip-Ranker)

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import DocCardList from '@theme/DocCardList';
# Indicators ingestion
In this step, research products are enriched with Impact and Usage Statistics indicators.
The former are provided by [BIP!](https://bip.imsi.athenarc.gr/) while the latter are computed by OpenAIRE's [UsageCounts service](https://usagecounts.openaire.eu/).
<DocCardList />

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# Sustainable Development Goals
## Introduction
The Sustainable Development Goals (SDGs) are a set of 17 interconnected global goals established by the United
Nations in 2015.
They serve as a universal call to action to end poverty, protect the planet, and ensure peace and prosperity for
all by 2030.
The SDGs are designed to be a blueprint for achieving a better and more sustainable future.
<p align="center">
<img loading="lazy" alt="Data model" src={require('../../assets/img/sdg.png').default} width="100%"
className="img_node_modules-@docusaurus-theme-classic-lib-theme-MDXComponents-Img-styles-module"/>
</p>
## The 17 Sustainable Development Goals
1. [**No Poverty**](https://sdgs.un.org/goals/goal1): End poverty in all its forms everywhere.
2. [**Zero Hunger**](https://sdgs.un.org/goals/goal2): End hunger, achieve food security and improved nutrition, and
promote sustainable agriculture.
3. [**Good Health and Well-being**](https://sdgs.un.org/goals/goal3): Ensure healthy lives and promote well-being
for all at all ages.
4. [**Quality Education**](https://sdgs.un.org/goals/goal4): Ensure inclusive and equitable quality education and
promote lifelong learning opportunities for all.
5. [**Gender Equality**](https://sdgs.un.org/goals/goal5): Achieve gender equality and empower all women and girls.
6. [**Clean Water and Sanitation**](https://sdgs.un.org/goals/goal6): Ensure availability and sustainable
management of water and sanitation for all.
7. [**Affordable and Clean Energy**](https://sdgs.un.org/goals/goal7): Ensure access to affordable, reliable,
sustainable, and modern energy for all.
8. [**Decent Work and Economic Growth**](https://sdgs.un.org/goals/goal8): Promote sustained, inclusive, and
sustainable economic growth, full and productive employment, and decent work for all.
9. [**Industry, Innovation, and Infrastructure**](https://sdgs.un.org/goals/goal9): Build resilient infrastructure,
promote inclusive and sustainable industrialization, and foster innovation.
10. [**Reduced Inequalities**](https://sdgs.un.org/goals/goal10): Reduce inequality within and among countries.
11. [**Sustainable Cities and Communities**](https://sdgs.un.org/goals/goal11): Make cities and human settlements
inclusive, safe, resilient, and sustainable.
12. [**Responsible Consumption and Production**](https://sdgs.un.org/goals/goal12): Ensure sustainable consumption
and production patterns.
13. [**Climate Action**](https://sdgs.un.org/goals/goal13): Take urgent action to combat climate change and its impacts.
14. [**Life Below Water**](https://sdgs.un.org/goals/goal14): Conserve and sustainably use the oceans, seas, and
marine resources for sustainable development.
15. [**Life on Land**](https://sdgs.un.org/goals/goal15): Protect, restore, and promote sustainable use of
terrestrial ecosystems, manage forests sustainably, combat desertification, and halt and reverse land
degradation and halt biodiversity loss.
16. [**Peace, Justice, and Strong Institutions**](https://sdgs.un.org/goals/goal16): Promote peaceful and inclusive
societies for sustainable development, provide access to justice for all, and build effective, accountable, and
inclusive institutions at all levels.
17. [**Partnerships for the Goals**](https://sdgs.un.org/goals/goal17): Strengthen the means of implementation and
revitalize the global partnership for sustainable development.
## Application in Classification of Research Products
The SDG taxonomy is used to classify research products based on their relevance to the overarching goals. This
classification helps in identifying the impact of research on sustainable development and aligning research efforts
with global priorities. Heres how it can be applied:
1. **Mapping Research Outputs**: Research outputs such as publications are be mapped to specific SDGs based on their
objectives, methodologies, and outcomes.
2. **Evaluating Impact**: The classification allows for the evaluation of the impact of research on achieving the
SDGs, helping to highlight contributions to specific goals.
3. **Funding and Collaboration**: Aligning research with SDGs can attract funding from organizations focused on
sustainable development and foster collaborations with other researchers and institutions working towards
similar goals.
4. **Policy and Decision-Making**: Policymakers can use the classification to identify research that supports
sustainable development policies and make informed decisions based on evidence from relevant research.
By integrating the SDG taxonomy into the classification of research products, we can ensure that research efforts
are directed towards addressing the most pressing global challenges and contributing to a sustainable future.
## Conclusion
The Sustainable Development Goals provide a comprehensive framework for addressing global challenges. By applying
the SDG taxonomy to classify research products, we can better understand and enhance the impact of research on
sustainable development, ensuring that scientific advancements contribute to a more equitable and sustainable world.
Check an example of how the SDG classification appears in the OpenAIRE data in the
[data model](../../data-model/entities/research-product#subjects) section.

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