git-svn-id: https://svn.d4science.research-infrastructures.eu/gcube/trunk/data-analysis/EcologicalEngineGeoSpatialExtension@92311 82a268e6-3cf1-43bd-a215-b396298e98cf

2014-02-26 00:02:41 +00:00 · 2014-02-26 00:02:41 +00:00 · 57f150e546
parent e1a653c1fd
commit 57f150e546
6 changed files with 233 additions and 3 deletions
--- a/src/main/java/org/gcube/dataanalysis/geo/test/TestChunkization.java
+++ b/src/main/java/org/gcube/dataanalysis/geo/test/TestChunkization.java
@ -13,7 +13,9 @@ public class TestChunkization {
 //		String  layertitle = "Objectively Analyzed Climatology in [07-01-01 01:00] (3D) {World Ocean Atlas 09: Sea Water Temperature - annual: dods://thredds.research-infrastructures.eu/thredds/dodsC/public/netcdf/temperature_annual_1deg_ENVIRONMENT_OCEANS_.nc}";
 		long t0 = System.currentTimeMillis();
 		AnalysisLogger.setLogger(cfg+AlgorithmConfiguration.defaultLoggerFile);
-		MatrixExtractor intersector = new MatrixExtractor(null, cfg);
+		AlgorithmConfiguration config = new AlgorithmConfiguration();
+		config.setConfigPath(cfg);
+		MatrixExtractor intersector = new MatrixExtractor(config);
 //		intersector.takeTimeSlice(layertitle, 0, -180, 180, -10, 10, 0, 1, 1);
 //		intersector.takeTimeSlice(layertitle, 0, -10, 10, -10, 10, 0,1, 1);
 		intersector.takeTimeInstantMatrix(layertitle, 0, -180, 180, -90, 90, 0, 0.5, 0.5);
--- a/src/main/java/org/gcube/dataanalysis/geo/test/TestChunkizationLayer.java
+++ b/src/main/java/org/gcube/dataanalysis/geo/test/TestChunkizationLayer.java
@ -14,7 +14,9 @@ public class TestChunkizationLayer {
 		String  layertitle = "FAO AQUATIC SPECIES DISTRIBUTION MAP OF MEGALASPIS CORDYLA";
 		long t0 = System.currentTimeMillis();
 		AnalysisLogger.setLogger(cfg+AlgorithmConfiguration.defaultLoggerFile);
-		MatrixExtractor intersector = new MatrixExtractor(null, cfg);
+		AlgorithmConfiguration config = new AlgorithmConfiguration();
+		config.setConfigPath(cfg);
+		MatrixExtractor intersector = new MatrixExtractor(config);
 //		intersector.takeTimeSlice(layertitle, 0, -10, 10, -10, 10, 0,1, 1);
 		intersector.takeTimeInstantMatrix(layertitle, 0, -180, 180, -90, 90, 0, 0.5, 0.5);
 		System.out.println("ELAPSED TIME: "+(System.currentTimeMillis()-t0));
--- a/src/main/java/org/gcube/dataanalysis/geo/test/TestPointslice.java
+++ b/src/main/java/org/gcube/dataanalysis/geo/test/TestPointslice.java
@ -0,0 +1,29 @@
+package org.gcube.dataanalysis.geo.test;
+
+import org.gcube.contentmanagement.lexicalmatcher.utils.AnalysisLogger;
+import org.gcube.dataanalysis.ecoengine.configuration.AlgorithmConfiguration;
+import org.gcube.dataanalysis.geo.matrixmodel.MatrixExtractor;
+
+public class TestPointslice {
+
+	static String cfg = "./cfg/";
+	public static void main(String[] args) throws Exception{
+		String  layertitle = "Statistical Mean in [07-01-01 01:00] (3D) {World Ocean Atlas 09: Sea Water Temperature - annual: dods://thredds.research-infrastructures.eu/thredds/dodsC/public/netcdf/temperature_annual_1deg_ENVIRONMENT_OCEANS_.nc}";
+//		String  layertitle = "Mass Concentration of Chlorophyll in Sea Water in [03-30-13 01:00] (3D) {Mercator Ocean BIOMER1V1R1: Data extracted from dataset http://atoll-mercator.vlandata.cls.fr:44080/thredds/dodsC/global-analysis-bio-001-008-a}";
+//		String  layertitle = "Objectively Analyzed Climatology in [07-01-01 01:00] (3D) {World Ocean Atlas 09: Sea Water Temperature - annual: dods://thredds.research-infrastructures.eu/thredds/dodsC/public/netcdf/temperature_annual_1deg_ENVIRONMENT_OCEANS_.nc}";
+//		String  layertitle = "be24800d-7583-4efa-b925-e0d8760e0fd3";
+		
+		long t0 = System.currentTimeMillis();
+		AnalysisLogger.setLogger(cfg+AlgorithmConfiguration.defaultLoggerFile);
+		AlgorithmConfiguration config = new AlgorithmConfiguration();
+		config.setGcubeScope("/gcube");
+		config.setConfigPath(cfg);
+		MatrixExtractor intersector = new MatrixExtractor(config);
+//		intersector.takeTimeSlice(layertitle, 0, -180, 180, -10, 10, 0, 1, 1);
+//		intersector.takeTimeSlice(layertitle, 0, -10, 10, -10, 10, 0,1, 1);
+//		intersector.takeTimeInstantMatrix(layertitle, 0, -180, 180, -90, 90, 0, 0.5, 0.5);
+		double output[][] = intersector.takeTimeInstantMatrix(layertitle, 0, 0,0,0,0, 0, 0.5, 0.5);
+		System.out.println("ELAPSED TIME: "+(System.currentTimeMillis()-t0));
+		System.out.println("Output: "+output[0][0]);
+	}
+}
--- a/src/main/java/org/gcube/dataanalysis/geo/test/TestRasterTable.java
+++ b/src/main/java/org/gcube/dataanalysis/geo/test/TestRasterTable.java
@ -31,7 +31,7 @@ public class TestRasterTable {
 		config.setParam("DatabaseURL","jdbc:postgresql://localhost/testdb");
 		config.setParam("DatabaseDriver","org.postgresql.Driver");
 		
-		MatrixExtractor intersector = new MatrixExtractor(null, cfg);
+		MatrixExtractor intersector = new MatrixExtractor(config);
 		int t = 0;
 		double x1 = -180;
 		double x2 = 180;
--- a/src/main/java/org/gcube/dataanalysis/geo/test/TestSignal.java
+++ b/src/main/java/org/gcube/dataanalysis/geo/test/TestSignal.java
@ -0,0 +1,95 @@
+package org.gcube.dataanalysis.geo.test;
+
+import java.io.BufferedReader;
+import java.io.BufferedWriter;
+import java.io.File;
+import java.io.FileReader;
+import java.io.FileWriter;
+
+import org.gcube.contentmanagement.lexicalmatcher.utils.AnalysisLogger;
+import org.gcube.dataanalysis.ecoengine.configuration.AlgorithmConfiguration;
+import org.gcube.dataanalysis.ecoengine.signals.PeriodicityDetector;
+import org.gcube.dataanalysis.ecoengine.signals.SignalProcessing;
+import org.gcube.dataanalysis.geo.matrixmodel.MatrixExtractor;
+
+public class TestSignal {
+
+	static String cfg = "./cfg/";
+	public static void main(String[] args) throws Exception{
+//		String  layertitle = "Statistical Mean in [07-01-01 01:00] (3D) {World Ocean Atlas 09: Sea Water Temperature - annual: dods://thredds.research-infrastructures.eu/thredds/dodsC/public/netcdf/temperature_annual_1deg_ENVIRONMENT_OCEANS_.nc}";
+//		String  layertitle = "Mass Concentration of Chlorophyll in Sea Water in [03-30-13 01:00] (3D) {Mercator Ocean BIOMER1V1R1: Data extracted from dataset http://atoll-mercator.vlandata.cls.fr:44080/thredds/dodsC/global-analysis-bio-001-008-a}";
+//		String  layertitle = "Objectively Analyzed Climatology in [07-01-01 01:00] (3D) {World Ocean Atlas 09: Sea Water Temperature - annual: dods://thredds.research-infrastructures.eu/thredds/dodsC/public/netcdf/temperature_annual_1deg_ENVIRONMENT_OCEANS_.nc}";
+		//temperature anomaly: long signal
+		//String  layertitle = "be24800d-7583-4efa-b925-e0d8760e0fd3";
+		//temperature short periodic signal
+//		String  layertitle = "dffa504b-dbc8-4553-896e-002549f8f5d3";
+		//ASC
+		String  layertitle = "2c2304d1-681a-4f3a-8409-e8cdb5ed447f";
+		//WFS
+//		String  layertitle = "0aac424b-5f5b-4fa6-97d6-4b4deee62b97";
+		//Chlorophyll
+//		String  layertitle = "c565e32c-c5b3-4964-b44f-06dc620563e9";
+		long t0 = System.currentTimeMillis();
+		AnalysisLogger.setLogger(cfg+AlgorithmConfiguration.defaultLoggerFile);
+		
+		AlgorithmConfiguration config = new AlgorithmConfiguration();
+		config.setGcubeScope("/d4science.research-infrastructures.eu/gCubeApps/BiodiversityLab");
+		config.setConfigPath(cfg);
+		MatrixExtractor intersector = new MatrixExtractor(config);
+
+//		intersector.takeTimeSlice(layertitle, 0, -180, 180, -10, 10, 0, 1, 1);
+//		intersector.takeTimeSlice(layertitle, 0, -10, 10, -10, 10, 0,1, 1);
+//		intersector.takeTimeInstantMatrix(layertitle, 0, -180, 180, -90, 90, 0, 0.5, 0.5);
+		double signal[] = intersector.takeSignalInTime(layertitle, 7.5d, 42.5d,0d,0.5);
+		
+		SignalProcessing.displaySignalWithGenericTime(signal, 0, 1, "signal");
+		
+		System.out.println("ELAPSED TIME: "+(System.currentTimeMillis()-t0));
+		
+		System.out.println("Signal: "+signal.length);
+		BufferedWriter bw = new BufferedWriter(new FileWriter(new File("signal.txt")));
+		for (double si: signal){
+			bw.write(si+",");
+		}
+		bw.close();
+		
+		
+	}
+	
+	public static void main1(String[] args) throws Exception{
+		takeSignal();
+	}
+	public static void takeSignal() throws Exception{
+		BufferedReader br = new BufferedReader(new FileReader(new File("signal.txt")));
+		String line = br.readLine();
+		double[] signal = null;
+		
+		while (line!=null){
+			String [] el = line.split(",");
+			signal=new double[el.length];
+			int i=0;	
+			for (String e:el){
+				signal[i]=Double.parseDouble(e);
+				i++;	
+			}
+			line = null;
+		}
+		br.close();
+		
+		
+//		SignalProcessing.displaySignalWithGenericTime(signal, 0, 1, "signal");
+		PeriodicityDetector pd = new PeriodicityDetector();
+		
+//		signal = pd.produceNoisySignal(2000, 1, 0.1f, 0f);
+		
+		//float freq=1;//signal.length;
+		
+//		double F = pd.detectFrequency(signal, (int)freq, 0, freq, 1f,true);
+		double F = pd.detectFrequency(signal,true);
+		
+		System.out.println("Detected Frequency:"+F+" indecision ["+pd.lowermeanF+" , "+pd.uppermeanF+"]");
+		System.out.println("Detected Period:"+pd.meanPeriod+" indecision ["+pd.lowermeanPeriod+" , "+pd.uppermeanPeriod+"]");
+		
+	}
+	
+}
--- a/src/main/java/org/gcube/dataanalysis/geo/test/TestSignalTable.java
+++ b/src/main/java/org/gcube/dataanalysis/geo/test/TestSignalTable.java
@ -0,0 +1,102 @@
+package org.gcube.dataanalysis.geo.test;
+
+import java.io.BufferedReader;
+import java.io.BufferedWriter;
+import java.io.File;
+import java.io.FileReader;
+import java.io.FileWriter;
+
+import org.gcube.contentmanagement.lexicalmatcher.utils.AnalysisLogger;
+import org.gcube.dataanalysis.ecoengine.configuration.AlgorithmConfiguration;
+import org.gcube.dataanalysis.ecoengine.signals.PeriodicityDetector;
+import org.gcube.dataanalysis.ecoengine.signals.SignalProcessing;
+import org.gcube.dataanalysis.geo.connectors.table.TableMatrixRepresentation;
+import org.gcube.dataanalysis.geo.matrixmodel.MatrixExtractor;
+
+public class TestSignalTable {
+
+	static String cfg = "./cfg/";
+	public static void main(String[] args) throws Exception{
+		AlgorithmConfiguration config = new AlgorithmConfiguration();
+
+		config.setConfigPath("./cfg/");
+		config.setPersistencePath("./");
+		config.setParam("DatabaseUserName", "utente");
+		config.setParam("DatabasePassword", "d4science");
+		config.setParam("DatabaseURL", "jdbc:postgresql://statistical-manager.d.d4science.research-infrastructures.eu/testdb");
+		config.setParam("DatabaseDriver", "org.postgresql.Driver");
+		// vessels
+		config.setParam(TableMatrixRepresentation.tableNameParameter, "generic_id037d302d_2ba0_4e43_b6e4_1a797bb91728");
+		config.setParam(TableMatrixRepresentation.xDimensionColumnParameter, "x");
+		config.setParam(TableMatrixRepresentation.yDimensionColumnParameter, "y");
+		// config.setParam(zDimensionColumnParameter,"");
+		config.setParam(TableMatrixRepresentation.timeDimensionColumnParameter, "datetime");
+		config.setParam(TableMatrixRepresentation.valueDimensionColumnParameter, "speed");
+
+		AnalysisLogger.setLogger(config.getConfigPath() + AlgorithmConfiguration.defaultLoggerFile);
+		
+		config.setGcubeScope("/d4science.research-infrastructures.eu/gCubeApps/BiodiversityLab");
+		config.setConfigPath(cfg);
+
+		MatrixExtractor intersector = new MatrixExtractor(config);
+		long t0 = System.currentTimeMillis();
+
+		double signal[] = intersector.takeSignalInTime("table", -47.14, 44.52, 0d, 0.5);
+		
+//		double signal[] = intersector.takeMatrixesInTime("table", -47.14, -47.14, 44.52, 44.52, 0d, 0.5, 0.5);
+		
+		SignalProcessing.displaySignalWithGenericTime(signal, 0, 1, "signal");
+		
+		System.out.println("ELAPSED TIME: "+(System.currentTimeMillis()-t0));
+		
+		System.out.println("Signal: "+signal.length);
+		BufferedWriter bw = new BufferedWriter(new FileWriter(new File("signal.txt")));
+		for (double si: signal){
+			bw.write(si+",");
+		}
+		bw.close();
+		
+		PeriodicityDetector pd = new PeriodicityDetector();
+		double F = pd.detectFrequency(signal,true);
+		
+		System.out.println("Detected Frequency:"+F+" indecision ["+pd.lowermeanF+" , "+pd.uppermeanF+"]");
+		System.out.println("Detected Period:"+pd.meanPeriod+" indecision ["+pd.lowermeanPeriod+" , "+pd.uppermeanPeriod+"]");
+	}
+	
+	public static void main1(String[] args) throws Exception{
+		takeSignal();
+	}
+	public static void takeSignal() throws Exception{
+		BufferedReader br = new BufferedReader(new FileReader(new File("signal.txt")));
+		String line = br.readLine();
+		double[] signal = null;
+		
+		while (line!=null){
+			String [] el = line.split(",");
+			signal=new double[el.length];
+			int i=0;	
+			for (String e:el){
+				signal[i]=Double.parseDouble(e);
+				i++;	
+			}
+			line = null;
+		}
+		br.close();
+		
+		
+//		SignalProcessing.displaySignalWithGenericTime(signal, 0, 1, "signal");
+		PeriodicityDetector pd = new PeriodicityDetector();
+		
+//		signal = pd.produceNoisySignal(2000, 1, 0.1f, 0f);
+		
+		//float freq=1;//signal.length;
+		
+//		double F = pd.detectFrequency(signal, (int)freq, 0, freq, 1f,true);
+		double F = pd.detectFrequency(signal,true);
+		
+		System.out.println("Detected Frequency:"+F+" indecision ["+pd.lowermeanF+" , "+pd.uppermeanF+"]");
+		System.out.println("Detected Period:"+pd.meanPeriod+" indecision ["+pd.lowermeanPeriod+" , "+pd.uppermeanPeriod+"]");
+		
+	}
+	
+}