implementing non-radial corrections to lens polynomial model

ada64adb · Andrey Filippov · ab077ab1 · ada64adb · ada64adb · ada64adb
Commit ada64adb authored Dec 01, 2014 by Andrey Filippov
7 changed files
--- a/src/main/java/Aberration_Calibration.java
+++ b/src/main/java/Aberration_Calibration.java
@@ -403,7 +403,9 @@ public static MatchSimulatedPattern.DistortionParameters DISTORTION =new MatchSi
    		2360,// double distance// distance from the lens input pupil to the pattern plane along the camera axis, mm 
    		1296.0, // double px0     // lens axis from sensor, horizontal, from left (pixels)
    		968.0, // double py0     // lens axis from sensor, vertical, from top (pixels)
-    		true//  boolean flipVertical // acquired image is mirrored vertically (mirror used)
+    		true, //  boolean flipVertical // acquired image is mirrored vertically (mirror used)
+    		null, //  double [][] r_xy,
+    		null  //  double [][] r_od
    		);
 //    public static double [] defaultGoniometerPosition={0.0, 0.0, 2360};
    public static EyesisCameraParameters EYESIS_CAMERA_PARAMETERS=new EyesisCameraParameters(

--- a/src/main/java/DistortionCalibrationData.java
+++ b/src/main/java/DistortionCalibrationData.java
@@ -264,7 +264,7 @@ import org.apache.commons.configuration.XMLConfiguration;
        	}
    	}
    	public class GridImageSet{
-    		private int numPars=27;
+    		private int numPars=53; // 27;
    		private int thisParsStartIndex=6;
    		public int         stationNumber=0; // changes when camera/goniometer is moved to new position
@@ -465,12 +465,48 @@ import org.apache.commons.configuration.XMLConfiguration;
    			{"subcamDistortionA5",   "Distortion A5(r^5)","relative","S","I"},                                                              //23 (21)
    			{"subcamDistortionA",    "Distortion A (r^4)","relative","S","I"},                                                              //24 (22)
    			{"subcamDistortionB",    "Distortion B (r^3)","relative","S","I"},                                                              //25 (23)
-    			{"subcamDistortionC",    "Distortion C (r^2)","relative","S","I"}                                                               //26 (24)
+    			{"subcamDistortionC",    "Distortion C (r^2)","relative","S","I"},                                                               //26 (24)
+        		{"subcamElong_C_o",      "Orthogonal elongation for r^2","relative","S","I"},     // 27 39 (37)
+        		{"subcamElong_C_d",      "Diagonal   elongation for r^2","relative","S","I"},     // 28 40 (38)
+        		{"subcamEccen_B_x",      "Distortion center shift X for r^3","relative","S","I"}, // 29 27 (25)
+        		{"subcamEccen_B_y",      "Distortion center shift Y for r^3","relative","S","I"}, // 30 28 (26)
+        		{"subcamElong_B_o",      "Orthogonal elongation for r^3","relative","S","I"},     // 31 41 (39)
+        		{"subcamElong_B_d",      "Diagonal   elongation for r^3","relative","S","I"},     // 32 42 (40)
+        		{"subcamEccen_A_x",      "Distortion center shift X for r^4","relative","S","I"}, // 33 29 (27)
+        		{"subcamEccen_A_y",      "Distortion center shift Y for r^4","relative","S","I"}, // 34 30 (28)
+        		{"subcamElong_A_o",      "Orthogonal elongation for r^4","relative","S","I"},     // 35 43 (41)
+        		{"subcamElong_A_d",      "Diagonal   elongation for r^4","relative","S","I"},     // 36 44 (42)
+        		{"subcamEccen_A5_x",     "Distortion center shift X for r^5","relative","S","I"}, // 37 31 (29)
+        		{"subcamEccen_A5_y",     "Distortion center shift Y for r^5","relative","S","I"}, // 38 32 (30)
+        		{"subcamElong_A5_o",     "Orthogonal elongation for r^5","relative","S","I"},     // 39 45 (43)
+        		{"subcamElong_A5_d",     "Diagonal   elongation for r^5","relative","S","I"},     // 40 46 (44)
+        		{"subcamEccen_A6_x",     "Distortion center shift X for r^6","relative","S","I"}, // 41 33 (31)
+        		{"subcamEccen_A6_y",     "Distortion center shift Y for r^6","relative","S","I"}, // 42 34 (32)
+        		{"subcamElong_A6_o",     "Orthogonal elongation for r^6","relative","S","I"},     // 43 47 (45)
+        		{"subcamElong_A6_d",     "Diagonal   elongation for r^6","relative","S","I"},     // 44 48 (46)
+        		{"subcamEccen_A7_x",     "Distortion center shift X for r^7","relative","S","I"}, // 45 35 (33)
+        		{"subcamEccen_A7_y",     "Distortion center shift Y for r^7","relative","S","I"}, // 46 36 (34)
+        		{"subcamElong_A7_o",     "Orthogonal elongation for r^7","relative","S","I"},     // 47 49 (47)
+        		{"subcamElong_A7_d",     "Diagonal   elongation for r^7","relative","S","I"},     // 48 50 (48)
+        		{"subcamEccen_A8_x",     "Distortion center shift X for r^8","relative","S","I"}, // 49 37 (35)
+        		{"subcamEccen_A8_y",     "Distortion center shift Y for r^8","relative","S","I"}, // 50 38 (36)
+        		{"subcamElong_A8_o",     "Orthogonal elongation for r^8","relative","S","I"},     // 51 51 (49)
+        		{"subcamElong_A8_d",     "Diagonal   elongation for r^8","relative","S","I"}      // 52 52 (50)
        };
        public String [] channelSuffixes={ // natural order (same as array indices, may be modified to camera/subcamera
        		"00","01","02","03","04","05","06","07","08","09",
        		"10","11","12","13","14","15","16","17","18","19",
        		"20","21","22","23","24","25","26","27","28","29"};
+        public boolean isNonRadial(int index){
+        	return parameterDescriptions[index][0].startsWith("subcamEccen_") || parameterDescriptions[index][0].startsWith("subcamElong_");
+        }
        public int getParameterIndexByName(String name){
        	for (int i=0;i<this.parameterDescriptions.length;i++) if (this.parameterDescriptions[i][0].equals(name)){
        		return i;
@@ -1550,7 +1586,7 @@ import org.apache.commons.configuration.XMLConfiguration;
                	int minIndex=       this.gIS[index].getMinIndex();
                	int maxIndexPlusOne=this.gIS[index].getMaxIndexPlusOne();
                	for (int j=minIndex;j<maxIndexPlusOne;j++) if (sub.getString(parameterDescriptions[j][0])!=null) {
-                		this.gIS[index].setParameterValue(j,Double.parseDouble((sub.getString(parameterDescriptions[j][0]))), false);
+                		this.gIS[index].setParameterValue(j,Double.parseDouble(sub.getString(parameterDescriptions[j][0])), false);
                	}
            		if (sub.getString("orientationEstimated")!=null) {
            			this.gIS[i].orientationEstimated=Boolean.parseBoolean(sub.getString("orientationEstimated"));
@@ -1589,8 +1625,12 @@ import org.apache.commons.configuration.XMLConfiguration;
        		for (int j=0;j<this.parameterDescriptions.length;j++){
        			if (sub.getString(parameterDescriptions[j][0])!=null)
        				this.pars[i][j] = Double.parseDouble(sub.getString(parameterDescriptions[j][0]));
-        			else 
+        			else
-        				this.pars[i][j] = Double.NaN;
+        				if (isNonRadial(j)){
+        					this.pars[i][j] = 0.0; // old calibration files without non-radial parameters
+        				} else {
+        					this.pars[i][j] = Double.NaN;
+        				}
        		}
        	}
        	if (this.gIS!=null){

--- a/src/main/java/Distortions.java
+++ b/src/main/java/Distortions.java
@@ -30,8 +30,10 @@ import ij.io.Opener;
 import ij.process.FloatProcessor;
 import ij.process.ImageProcessor;
 import ij.text.TextWindow;
 import java.awt.Rectangle;
 import java.awt.geom.Point2D;
+import java.util.Arrays;
 //import java.io.StringWriter;
 import java.util.List;
 import java.util.ArrayList;
@@ -3299,7 +3301,7 @@ For each point in the image
 		double [] vectorFX=new double[doubleNumAllPoints];
 //		this.fX=new double[doubleNumAllPoints];
 		if (this.debugLevel>2) {
-			System.out.println("calculateFxAndJacobian(), calcJacobian="+calcJacobian);
+			System.out.println("calculateFxAndJacobian(), calcJacobian="+calcJacobian+" D3304 + this.debugLevel="+this.debugLevel);
 			if (vector!=null) {
 			  for (int ii=0;ii<vector.length;ii++) System.out.println(ii+": "+vector[ii]);
 			} else {
@@ -3331,8 +3333,9 @@ For each point in the image
 // and this.interParameterDerivatives
 //			if (this.debugLevel>1) {
 			if (this.debugLevel>2) {
-				System.out.println("calculateFxAndJacobian(), imgNum="+imgNum+" calcInterParamers():");
+				System.out.println("calculateFxAndJacobian(), imgNum="+imgNum+" calcInterParamers(): (D3336)");
 			}
+			this.lensDistortionParameters.debugLevel=this.debugLevel;
 			this.lensDistortionParameters.lensCalcInterParamers(
 					this.lensDistortionParameters,
 					this.fittingStrategy.distortionCalibrationData.eyesisCameraParameters.isTripod,
@@ -3359,7 +3362,7 @@ For each point in the image
 	    					IJ.d2s(targetXYZ[fullIndex][1],2)+","+
 	    					IJ.d2s(targetXYZ[fullIndex][2],2)+" ("+calcJacobian+") -> "+
 	    					IJ.d2s(derivatives15[0][0],2)+"/"+IJ.d2s(derivatives15[0][1],2));
-	    			String all="derivatives15:";
+	    			String all="derivatives15: D3365";
 	    			for (int ii=0;ii<derivatives15.length;ii++) all+=" "+ii+":"+IJ.d2s(derivatives15[ii][0],3)+"/"+IJ.d2s(derivatives15[ii][1],3);
 	    			System.out.println(all);
 	    		}
@@ -3470,7 +3473,7 @@ For each point in the image
 						IJ.d2s(patternXYZ[fullIndex][1],2)+","+
 						IJ.d2s(patternXYZ[fullIndex][2],2)+" ("+calcJacobian+") -> "+
 						IJ.d2s(derivatives15[0][0],2)+"/"+IJ.d2s(derivatives15[0][1],2));
-				String all="derivatives15:";
+				String all="derivatives15: D3476";
 				for (int ii=0;ii<derivatives15.length;ii++) all+=" "+ii+":"+IJ.d2s(derivatives15[ii][0],3)+"/"+IJ.d2s(derivatives15[ii][1],3);
 				System.out.println(all);
 			}
@@ -3557,7 +3560,7 @@ For each point in the image
 									IJ.d2s(targetXYZ[fullIndex][1],2)+","+
 									IJ.d2s(targetXYZ[fullIndex][2],2)+" -> "+
 									IJ.d2s(derivatives15[0][0],2)+"/"+IJ.d2s(derivatives15[0][1],2));
-							String all="derivatives15:";
+							String all="derivatives15: D3563";
 							for (int ii=0;ii<derivatives15.length;ii++) all+=" "+ii+":"+IJ.d2s(derivatives15[ii][0],3)+"/"+IJ.d2s(derivatives15[ii][1],3);
 							System.out.println(all);
 						}
@@ -5916,6 +5919,14 @@ List calibration
    	imp.setProperty("comment_entrancePupilForward",  "entrance pupil distance from the azimuth/radius/height, outwards in mm");
    	imp.setProperty("entrancePupilForward",  ""+entrancePupilForward); // currently global, decoders will use per-sensor
       	imp.setProperty("comment_defects", "Sensor hot/cold pixels list as x:y:difference");
+		for (int i=0;i<subCam.r_xy.length;i++){
+			imp.setProperty("r_xy_"+i+"_x",subCam.r_xy[i][0]+"");
+			imp.setProperty("r_xy_"+i+"_y",subCam.r_xy[i][1]+"");
+		}
+		for (int i=0;i<subCam.r_od.length;i++){
+			imp.setProperty("r_od_"+i+"_o",subCam.r_od[i][0]+"");
+			imp.setProperty("r_od_"+i+"_d",subCam.r_od[i][1]+"");
+		}
       	if (subCam.defectsXY!=null){
    		StringBuffer sb = new StringBuffer();
    		for (int i=0;i<subCam.defectsXY.length;i++){
@@ -6076,6 +6087,16 @@ List calibration
        		subCam.defectsXY=null;
        		subCam.defectsDiff=null;
        	}
+ // non-radial
+        	subCam.setDefaultNonRadial();
+			for (int i=0;i<subCam.r_xy.length;i++) {
+				if (imp.getProperty("r_xy_"+i+"_x")  !=null) subCam.r_xy[i][0]= Double.parseDouble((String) imp.getProperty("r_xy_"+i+"_x"));
+				if (imp.getProperty("r_xy_"+i+"_y")  !=null) subCam.r_xy[i][1]= Double.parseDouble((String) imp.getProperty("r_xy_"+i+"_y"));
+			}
+			for (int i=0;i<subCam.r_od.length;i++) {
+				if (imp.getProperty("r_od_"+i+"_o")  !=null) subCam.r_od[i][0]= Double.parseDouble((String) imp.getProperty("r_od_"+i+"_o"));
+				if (imp.getProperty("r_od_"+i+"_d")  !=null) subCam.r_od[i][1]= Double.parseDouble((String) imp.getProperty("r_od_"+i+"_d"));
+			}
        }
        for (int imgNum=0;imgNum<fittingStrategy.distortionCalibrationData.getNumImages();imgNum++){
        	int imageSubCam=  fittingStrategy.distortionCalibrationData.getImageSubcamera(imgNum);
@@ -9289,7 +9310,7 @@ M * V = B
 			gd.addNumericField("Select parameter number (0.."+(parameterNames.length-1)+") from above", 0, 0);
 	    }
-		if (debugDerivatives) gd.addNumericField("Select delta to increment selected parameter", .01, 5);
+		if (debugDerivatives) gd.addNumericField("Select delta to increment selected parameter", .001, 5);
 		if (debugDerivatives) gd.addCheckbox("Show inter-parameter derivatives matrix", true);
 	    gd.showDialog();
 	    if (gd.wasCanceled()) return;
@@ -9304,7 +9325,7 @@ M * V = B
 	    String title;
 	    if (useActualParameters) {
 	    	this_currentfX=calculateFxAndJacobian(this.currentVector, true); // is it always true here (this.jacobian==null)
-	    	d_derivative=this.jacobian[selectedParameter].clone();
+	    	d_derivative=this.jacobian[selectedParameter].clone(); //  wrong?
 	    	if (debugDerivatives) {
 	    		double[] modVector=this.currentVector.clone();
 	    		modVector[selectedParameter]+=delta;
@@ -9354,13 +9375,17 @@ M * V = B
 	 * @return rms 
 	 */
 	public double showCompareDerivatives(int imgNumber, double [] d_derivative, double [] d_delta, boolean applySensorMask, String title ){
-		String [] titlesDebug={"dX-derivative","dY-derivative","abs-derivative","diff-X (should be 0)","diff-Y (should be 0)","dX-delta/delta","dY-delta/delta"};
+		String [] titlesDebug={"dX-derivative","dY-derivative","abs-derivative","diff-X (should be 0)","diff-Y (should be 0)","dX-delta/delta","dY-delta/delta","dX-delta","dY-delta"};
 		String [] titlesNoDebug={"dX-derivative","dY-derivative","abs-derivative"};
 		String [] titles= (d_delta==null)? titlesNoDebug:titlesDebug;
 		double [] d_diff=new double [d_derivative.length];
+		double [] r_diff=new double [d_derivative.length];
 		double [] aDeriv=new double [d_derivative.length/2];
-		if (d_delta!=null) for (int i=0;i<d_diff.length;i++) d_diff[i]=d_derivative[i]-d_delta[i];
+		if (d_delta!=null) for (int i=0;i<d_diff.length;i++){
+			d_diff[i]=d_derivative[i]-d_delta[i];
+			r_diff[i]=d_diff[i]/d_delta[i];
+		}
 // find data range for the selected image
 		int index=0;
 		int numImg=fittingStrategy.distortionCalibrationData.getNumImages();
@@ -9396,8 +9421,10 @@ M * V = B
 			if (d_delta!=null) {
 				imgData[3][vu]=   d_diff[2*(index+i)];
 				imgData[4][vu]=   d_diff[2*(index+i)+1];
-				imgData[5][vu]=   d_delta[2*(index+i)];
+				imgData[5][vu]=   r_diff[2*(index+i)];
-				imgData[6][vu]=   d_delta[2*(index+i)+1];
+				imgData[6][vu]=   r_diff[2*(index+i)+1];
+				imgData[7][vu]=   d_delta[2*(index+i)];
+				imgData[8][vu]=   d_delta[2*(index+i)+1];
 			}
 		}
 		this.SDFA_INSTANCE.showArrays(imgData, width, getGridHeight(),  true, title, titles);
@@ -9456,6 +9483,14 @@ M * V = B
        	System.out.println("this.lensDistortionParameters.distortionA="+IJ.d2s(this.lensDistortionParameters.distortionA, 5));
        	System.out.println("this.lensDistortionParameters.distortionB="+IJ.d2s(this.lensDistortionParameters.distortionB, 5));
        	System.out.println("this.lensDistortionParameters.distortionC="+IJ.d2s(this.lensDistortionParameters.distortionC, 5));
+        	for (int i=0;i<this.lensDistortionParameters.r_xy.length;i++){
+            	System.out.println("this.lensDistortionParameters.r_xy["+i+"][0]="+IJ.d2s(this.lensDistortionParameters.r_xy[i][0], 5));
+            	System.out.println("this.lensDistortionParameters.r_xy["+i+"][1]="+IJ.d2s(this.lensDistortionParameters.r_xy[i][1], 5));
+        	}
+        	for (int i=0;i<this.lensDistortionParameters.r_od.length;i++){
+            	System.out.println("this.lensDistortionParameters.r_od["+i+"][0]="+IJ.d2s(this.lensDistortionParameters.r_od[i][0], 5));
+            	System.out.println("this.lensDistortionParameters.r_od["+i+"][1]="+IJ.d2s(this.lensDistortionParameters.r_od[i][1], 5));
+        	}
        }
        LensDistortionParameters ldp=this.lensDistortionParameters.clone();
 //		public void setLensDistortionParameters(LensDistortionParameters ldp
@@ -9612,6 +9647,7 @@ M * V = B
    		DistortionCalibrationData distortionCalibrationData,
    		EyesisCameraParameters eyesisCameraParameters
    ){
+    	boolean resetParametersToZero=false;
    	boolean [] parameterMask= new boolean[distortionCalibrationData.getNumParameters()];
    	boolean [] channelMask=   new boolean[distortionCalibrationData.getNumSubCameras()];
    	boolean [] stationMask=   new boolean[distortionCalibrationData.getNumStations()];
@@ -9619,7 +9655,9 @@ M * V = B
    	for (int i=0;i<channelMask.length;i++)   channelMask[i]=  true;
    	for (int i=0;i<stationMask.length;i++)   stationMask[i]=  true;
    	GenericDialog gd=new GenericDialog("Update (new) image settings from known data");
-    	gd.addMessage("Select which individual image parameters to be updated from the camera parameters");
+    	//
+    	gd.addCheckbox("Reset selected parameters to zero (false - update from camera parameters)", resetParametersToZero);
+    	gd.addMessage("Select which individual image parameters to be updated from the camera parameters (or reset to 0)");
    	for (int i=0;i<parameterMask.length;i++) gd.addCheckbox(i+": "+distortionCalibrationData.getParameterName(i), parameterMask[i]);
    	gd.addMessage("----------");
    	gd.addMessage("Select which channels (sub-cameras) to update");
@@ -9637,6 +9675,7 @@ M * V = B
 	    WindowTools.addScrollBars(gd);
    	gd.showDialog();
    	if (gd.wasCanceled()) return false;
+    	resetParametersToZero=gd.getNextBoolean();
    	for (int i=0;i<parameterMask.length;i++) parameterMask[i]= gd.getNextBoolean();
    	for (int i=0;i<channelMask.length;i++)   channelMask[i]=   gd.getNextBoolean();
    	if (stationMask.length>1) {
@@ -9653,6 +9692,7 @@ M * V = B
 //		boolean updateDisabled=       gd.getNextBoolean();
    	updateImageSetFromCamera(
+    			resetParametersToZero,
    			distortionCalibrationData,
    			eyesisCameraParameters,
    			parameterMask, //boolean [] parameterMask,
@@ -9741,6 +9781,7 @@ M * V = B
    	}
    	if (updateFromCamera) updateImageSetFromCamera(
+    			false, //resetParametersToZero
    			distortionCalibrationData,
    			eyesisCameraParameters,
    			parameterMask, //boolean [] parameterMask,
@@ -9771,6 +9812,7 @@ M * V = B
     * @param copyOrientation copy 2 goniometer angles, normally should be false
     */
    public void updateImageSetFromCamera(
+    		boolean resetParametersToZero, // reset to 0 instead of camera parameters
    		DistortionCalibrationData distortionCalibrationData,
    		EyesisCameraParameters eyesisCameraParameters,
    		boolean [] parameterMask,
@@ -9785,7 +9827,17 @@ M * V = B
    		if ((stationMask!=null) && !stationMask[stationNumber]) continue;
    		double [] oldVector=distortionCalibrationData.getParameters(i);
    		double [] newVector=eyesisCameraParameters.getParametersVector(stationNumber,subCam);
-    		for (int j=0;j<oldVector.length;j++) if (parameterMask[j]) oldVector[j]=newVector[j];
+    		for (int j=0;j<oldVector.length;j++) if (parameterMask[j]){
+    			if (resetParametersToZero) newVector[j]=0.0;
+    			oldVector[j]=newVector[j];
+    		}
+    		if (resetParametersToZero){
+    			eyesisCameraParameters.setParametersVector(
+    					newVector,
+    					parameterMask,
+    					stationNumber,
+    					subCam);
+    		}
    		distortionCalibrationData.setParameters(oldVector, i);
    		this.lensDistortionParameters.pixelSize=eyesisCameraParameters.getPixelSize(subCam);
    		this.lensDistortionParameters.distortionRadius=eyesisCameraParameters.getDistortionRadius(subCam);

--- a/src/main/java/EyesisCameraParameters.java
+++ b/src/main/java/EyesisCameraParameters.java
@@ -879,6 +879,42 @@ import org.apache.commons.configuration.XMLConfiguration;
    				gd.addNumericField("Distortion C (r^2)",              subCam.distortionC, 6,8,"");
    				gd.addNumericField("Lens axis on the sensor (horizontal, from left edge)", subCam.px0, 2,7,"pixels");
    				gd.addNumericField("Lens axis on the sensor (vertical, from top  edge)",   subCam.py0, 2,7,"pixels");
+    				gd.addMessage("=== non-radial model parameters ===");
+    				gd.addMessage("For r^2 (Distortion C):");
+    				gd.addNumericField("Orthogonal elongation for r^2",   100*subCam.r_od[0][0], 3,7,"%");
+    				gd.addNumericField("Diagonal elongation for r^2",     100*subCam.r_od[0][1], 3,7,"%");
+    				gd.addMessage("For r^3 (Distortion B):");
+    				gd.addNumericField("Distortion center shift X for r^3", 100*subCam.r_xy[0][0], 1,6,"%");
+    				gd.addNumericField("Distortion center shift Y for r^3", 100*subCam.r_xy[0][1], 1,6,"%");
+    				gd.addNumericField("Orthogonal elongation for r^3",  100*subCam.r_od[1][0], 3,7,"%");
+    				gd.addNumericField("Diagonal elongation for r^3",    100*subCam.r_od[1][1], 3,7,"%");
+    				gd.addMessage("For r^4 (Distortion A):");
+    				gd.addNumericField("Distortion center shift X for r^4", 100*subCam.r_xy[1][0], 1,6,"%");
+    				gd.addNumericField("Distortion center shift Y for r^4", 100*subCam.r_xy[1][1], 1,6,"%");
+    				gd.addNumericField("Orthogonal elongation for r^4",  100*subCam.r_od[2][0], 3,7,"%");
+    				gd.addNumericField("Diagonal elongation for r^4",    100*subCam.r_od[2][1], 3,7,"%");
+    				gd.addMessage("For r^5 (Distortion A5):");
+    				gd.addNumericField("Distortion center shift X for r^5", 100*subCam.r_xy[2][0], 1,6,"%");
+    				gd.addNumericField("Distortion center shift Y for r^5", 100*subCam.r_xy[2][1], 1,6,"%");
+    				gd.addNumericField("Orthogonal elongation for r^5",  100*subCam.r_od[3][0], 3,7,"%");
+    				gd.addNumericField("Diagonal elongation for r^5",    100*subCam.r_od[3][1], 3,7,"%");
+    				gd.addMessage("For r^6 (Distortion A6:");
+    				gd.addNumericField("Distortion center shift X for r^6", 100*subCam.r_xy[3][0], 1,6,"%");
+    				gd.addNumericField("Distortion center shift Y for r^6", 100*subCam.r_xy[3][1], 1,6,"%");
+    				gd.addNumericField("Orthogonal elongation for r^6",  100*subCam.r_od[4][0], 3,7,"%");
+    				gd.addNumericField("Diagonal elongation for r^6",    100*subCam.r_od[4][1], 3,7,"%");
+    				gd.addMessage("For r^7 (Distortion A7):");
+    				gd.addNumericField("Distortion center shift X for r^7", 100*subCam.r_xy[4][0], 1,6,"%");
+    				gd.addNumericField("Distortion center shift Y for r^7", 100*subCam.r_xy[4][1], 1,6,"%");
+    				gd.addNumericField("Orthogonal elongation for r^7",  100*subCam.r_od[5][0], 3,7,"%");
+    				gd.addNumericField("Diagonal elongation for r^7",    100*subCam.r_od[5][1], 3,7,"%");
+    				gd.addMessage("For r^8 (Distortion A8):");
+    				gd.addNumericField("Distortion center shift X for r^8", 100*subCam.r_xy[5][0], 1,6,"%");
+    				gd.addNumericField("Distortion center shift Y for r^8", 100*subCam.r_xy[5][1], 1,6,"%");
+    				gd.addNumericField("Orthogonal elongation for r^8",  100*subCam.r_od[6][0], 3,7,"%");
+    				gd.addNumericField("Diagonal elongation for r^8",    100*subCam.r_od[6][1], 3,7,"%");
    			}
    		}
   	        gd.enableYesNoCancel("OK", "Done");
@@ -912,6 +948,33 @@ import org.apache.commons.configuration.XMLConfiguration;
    				subCam.distortionC=     gd.getNextNumber();
    				subCam.px0=             gd.getNextNumber();
    				subCam.py0=             gd.getNextNumber();
+    				subCam.r_od[0][0]= 0.01*gd.getNextNumber();
+    				subCam.r_od[0][1]= 0.01*gd.getNextNumber();
+    				subCam.r_xy[0][0]= 0.01*gd.getNextNumber();
+    				subCam.r_xy[0][1]= 0.01*gd.getNextNumber();
+    				subCam.r_od[1][0]= 0.01*gd.getNextNumber();
+    				subCam.r_od[1][1]= 0.01*gd.getNextNumber();
+    				subCam.r_xy[1][0]= 0.01*gd.getNextNumber();
+    				subCam.r_xy[1][1]= 0.01*gd.getNextNumber();
+    				subCam.r_od[2][0]= 0.01*gd.getNextNumber();
+    				subCam.r_od[2][1]= 0.01*gd.getNextNumber();
+    				subCam.r_xy[2][0]= 0.01*gd.getNextNumber();
+    				subCam.r_xy[2][1]= 0.01*gd.getNextNumber();
+    				subCam.r_od[3][0]= 0.01*gd.getNextNumber();
+    				subCam.r_od[3][1]= 0.01*gd.getNextNumber();
+    				subCam.r_xy[3][0]= 0.01*gd.getNextNumber();
+    				subCam.r_xy[3][1]= 0.01*gd.getNextNumber();
+    				subCam.r_od[4][0]= 0.01*gd.getNextNumber();
+    				subCam.r_od[4][1]= 0.01*gd.getNextNumber();
+    				subCam.r_xy[4][0]= 0.01*gd.getNextNumber();
+    				subCam.r_xy[4][1]= 0.01*gd.getNextNumber();
+    				subCam.r_od[5][0]= 0.01*gd.getNextNumber();
+    				subCam.r_od[5][1]= 0.01*gd.getNextNumber();
+    				subCam.r_xy[5][0]= 0.01*gd.getNextNumber();
+    				subCam.r_xy[5][1]= 0.01*gd.getNextNumber();
+    				subCam.r_od[6][0]= 0.01*gd.getNextNumber();
+    				subCam.r_od[6][1]= 0.01*gd.getNextNumber();
    			}
    		}
    		return gd.wasOKed();
@@ -984,6 +1047,32 @@ import org.apache.commons.configuration.XMLConfiguration;
        			subCam.distortionA,        //24 (22)  r^4 (normalized to focal length or to sensor half width?)
        			subCam.distortionB,        //25 (23)  r^3
        			subCam.distortionC,        //26 (24)  r^2
+        			subCam.r_od[0][0],
+        			subCam.r_od[0][1],
+        			subCam.r_xy[0][0],
+        			subCam.r_xy[0][1],
+        			subCam.r_od[1][0],
+        			subCam.r_od[1][1],
+        			subCam.r_xy[1][0],
+        			subCam.r_xy[1][1],
+        			subCam.r_od[2][0],
+        			subCam.r_od[2][1],
+        			subCam.r_xy[2][0],
+        			subCam.r_xy[2][1],
+        			subCam.r_od[3][0],
+        			subCam.r_od[3][1],
+        			subCam.r_xy[3][0],
+        			subCam.r_xy[3][1],
+        			subCam.r_od[4][0],
+        			subCam.r_od[4][1],
+        			subCam.r_xy[4][0],
+        			subCam.r_xy[4][1],
+        			subCam.r_od[5][0],
+        			subCam.r_od[5][1],
+        			subCam.r_xy[5][0],
+        			subCam.r_xy[5][1],
+        			subCam.r_od[6][0],
+        			subCam.r_od[6][1]
        	};
        	// Global parameters, not adjusted - just copied once when camera is selected
    // or should they stay fixed and not copied at all?    	
@@ -1030,15 +1119,14 @@ import org.apache.commons.configuration.XMLConfiguration;
        		int stationNumber,
        		int subCamNumber // 
                ){
-        	if (parVect.length!=27) throw new IllegalArgumentException ("Wrong length of the parameters vector: "+parVect.length+"(should be 27)");
+//        	if (parVect.length!=27) throw new IllegalArgumentException ("Wrong length of the parameters vector: "+parVect.length+"(should be 27)");
+        	if (parVect.length!=53) throw new IllegalArgumentException ("Wrong length of the parameters vector: "+parVect.length+"(should be 53)");
        	if (
        			(this.eyesisSubCameras==null) ||
        			(this.numStations<=stationNumber) ||
        			(this.eyesisSubCameras.length<=stationNumber) ||
        			(this.eyesisSubCameras[stationNumber].length<=subCamNumber)) throw new IllegalArgumentException
            ("Nonexistent subcamera "+subCamNumber+ " and/or station number="+stationNumber);
        	EyesisSubCameraParameters subCam=this.eyesisSubCameras[stationNumber][subCamNumber];
        	if (update[0]) subCam.azimuth=parVect[0];            // 0 azimuth of the lens entrance pupil center, degrees, clockwise looking from top
        	if (update[1]) subCam.radius=parVect[1];             // 1 mm, distance from the rotation axis
@@ -1067,7 +1155,34 @@ import org.apache.commons.configuration.XMLConfiguration;
        	if (update[24]) subCam.distortionA= parVect[24];      //24  r^4 (normalized to focal length or to sensor half width?)
        	if (update[25]) subCam.distortionB= parVect[25];      //25  r^3
        	if (update[26]) subCam.distortionC= parVect[26];      //26  r^2
+        	if (update[27]) subCam.r_od[0][0]= parVect[27];
+        	if (update[28]) subCam.r_od[0][1]= parVect[28];
+        	if (update[29]) subCam.r_xy[0][0]= parVect[29];
+        	if (update[30]) subCam.r_xy[0][1]= parVect[30];
+        	if (update[31]) subCam.r_od[1][0]= parVect[31];
+        	if (update[32]) subCam.r_od[1][1]= parVect[32];
+        	if (update[33]) subCam.r_xy[1][0]= parVect[33];
+        	if (update[34]) subCam.r_xy[1][1]= parVect[34];
+        	if (update[35]) subCam.r_od[2][0]= parVect[35];
+        	if (update[36]) subCam.r_od[2][1]= parVect[36];
+        	if (update[37]) subCam.r_xy[2][0]= parVect[37];
+        	if (update[38]) subCam.r_xy[2][1]= parVect[38];
+        	if (update[39]) subCam.r_od[3][0]= parVect[39];
+        	if (update[40]) subCam.r_od[3][1]= parVect[40];
+        	if (update[41]) subCam.r_xy[3][0]= parVect[41];
+        	if (update[42]) subCam.r_xy[3][1]= parVect[42];
+        	if (update[43]) subCam.r_od[4][0]= parVect[43];
+        	if (update[44]) subCam.r_od[4][1]= parVect[44];
+        	if (update[45]) subCam.r_xy[4][0]= parVect[45];
+        	if (update[46]) subCam.r_xy[4][1]= parVect[46];
+        	if (update[47]) subCam.r_od[5][0]= parVect[47];
+        	if (update[48]) subCam.r_od[5][1]= parVect[48];
+        	if (update[49]) subCam.r_xy[5][0]= parVect[49];
+        	if (update[50]) subCam.r_xy[5][1]= parVect[50];
+        	if (update[51]) subCam.r_od[6][0]= parVect[51];
+        	if (update[52]) subCam.r_od[6][1]= parVect[52];
        }
    	public void initSubCameras(
    			int numStation,
    			int numSubCameras){
@@ -1094,6 +1209,8 @@ import org.apache.commons.configuration.XMLConfiguration;
    		    		0.0,    // double distortionC // r^2
    		    		1296.0, // double px0=1296.0;          // center of the lens on the sensor, pixels
    					968.0, // double py0=968.0;           // center of the lens on the sensor, pixels
+    					null,  // eccentricity for b,a,a5,a6,a7,a8
+    					null,  // elongation for c,b,a,a5,a6,a7,a8
    					1.0); //channelWeightDefault
    			this.eyesisSubCameras[numStation][1]=new EyesisSubCameraParameters( //TODO:  modify for lens adjustment defaults?
    					30.0, // double azimuth, // azimuth of the lens entrance pupil center, degrees, clockwise looking from top
@@ -1114,6 +1231,8 @@ import org.apache.commons.configuration.XMLConfiguration;
    		    		0.0,    // double distortionC // r^2
    		    		1296.0, // double px0=1296.0;          // center of the lens on the sensor, pixels
    					968.0, // double py0=968.0;           // center of the lens on the sensor, pixels
+    					null,  // eccentricity for b,a,a5,a6,a7,a8
+    					null,  // elongation for c,b,a,a5,a6,a7,a8
    					1.0); //channelWeightDefault
    			this.eyesisSubCameras[numStation][2]=new EyesisSubCameraParameters( //TODO:  modify for lens adjustment defaults?
    					-30.0, // double azimuth, // azimuth of the lens entrance pupil center, degrees, clockwise looking from top
@@ -1134,6 +1253,8 @@ import org.apache.commons.configuration.XMLConfiguration;
    		    		0.0,    // double distortionC // r^2
    		    		1296.0, // double px0=1296.0;          // center of the lens on the sensor, pixels
    					968.0, // double py0=968.0;           // center of the lens on the sensor, pixels
+    					null,  // eccentricity for b,a,a5,a6,a7,a8
+    					null,  // elongation for c,b,a,a5,a6,a7,a8
    					1.0); //channelWeightDefault
    		} else if (numSubCameras==1) {
    			this.eyesisSubCameras[numStation][0]=new EyesisSubCameraParameters( //TODO:  modify for lens adjustment defaults?
@@ -1155,6 +1276,8 @@ import org.apache.commons.configuration.XMLConfiguration;
    		    		0.0,    // double distortionC // r^2
    		    		1296.0, // double px0=1296.0;          // center of the lens on the sensor, pixels
    					968.0, // double py0=968.0;           // center of the lens on the sensor, pixels
+    					null,  // eccentricity for b,a,a5,a6,a7,a8
+    					null,  // elongation for c,b,a,a5,a6,a7,a8
    					1.0); //channelWeightDefault
    		} else {
    			// default setup for the 26 sub-cameras	    		
@@ -1177,6 +1300,8 @@ import org.apache.commons.configuration.XMLConfiguration;
    		    		0.0,    // double distortionC // r^2
    		    		1296.0, // double px0=1296.0;          // center of the lens on the sensor, pixels
    					968.0, // double py0=968.0;           // center of the lens on the sensor, pixels
+    					null,  // eccentricity for b,a,a5,a6,a7,a8
+    					null,  // elongation for c,b,a,a5,a6,a7,a8
    					1.0); //channelWeightDefault
    			for (int i=8;i<16;i++) if (i<numSubCameras) 	this.eyesisSubCameras[numStation][i]=new EyesisSubCameraParameters( // middle 8 cameras
    					45.0*(i-8),  // double azimuth, // azimuth of the lens entrance pupil center, degrees, clockwise looking from top
@@ -1197,6 +1322,8 @@ import org.apache.commons.configuration.XMLConfiguration;
    		    		0.0,    // double distortionC // r^2
    		    		1296.0, // double px0=1296.0;          // center of the lens on the sensor, pixels
    					968.0, // double py0=968.0;           // center of the lens on the sensor, pixels
+    					null,  // eccentricity for b,a,a5,a6,a7,a8
+    					null,  // elongation for c,b,a,a5,a6,a7,a8
    					1.0); //channelWeightDefault
    			for (int i=16;i<24;i++) if (i<numSubCameras) 	this.eyesisSubCameras[numStation][i]=new EyesisSubCameraParameters( // bottom eight cameras
    					45.0*(i-16), // double azimuth, // azimuth of the lens entrance pupil center, degrees, clockwise looking from top
@@ -1217,6 +1344,8 @@ import org.apache.commons.configuration.XMLConfiguration;
    		    		0.0,    // double distortionC // r^2
    		    		1296.0, // double px0=1296.0;          // center of the lens on the sensor, pixels
    					968.0, // double py0=968.0;           // center of the lens on the sensor, pixels
+    					null,  // eccentricity for b,a,a5,a6,a7,a8
+    					null,  // elongation for c,b,a,a5,a6,a7,a8
    					1.0); //channelWeightDefault
    			if (24<numSubCameras) 	this.eyesisSubCameras[numStation][24]=new EyesisSubCameraParameters(
    					90,      // double azimuth, // azimuth of the lens entrance pupil center, degrees, clockwise looking from top
@@ -1237,6 +1366,8 @@ import org.apache.commons.configuration.XMLConfiguration;
    		    		0.0,    // double distortionC // r^2
    		    		1296.0, // double px0=1296.0;          // center of the lens on the sensor, pixels
    					968.0, // double py0=968.0;           // center of the lens on the sensor, pixels
+    					null,  // eccentricity for b,a,a5,a6,a7,a8
+    					null,  // elongation for c,b,a,a5,a6,a7,a8
    					4.0); //channelWeightDefault
    			if (25<numSubCameras) 	this.eyesisSubCameras[numStation][25]=new EyesisSubCameraParameters(
    					270,     // double azimuth, // azimuth of the lens entrance pupil center, degrees, clockwise looking from top
@@ -1257,6 +1388,8 @@ import org.apache.commons.configuration.XMLConfiguration;
    		    		0.0,    // double distortionC // r^2
    		    		1296.0, // double px0=1296.0;          // center of the lens on the sensor, pixels
    					968.0, // double py0=968.0;           // center of the lens on the sensor, pixels
+    					null,  // eccentricity for b,a,a5,a6,a7,a8
+    					null,  // elongation for c,b,a,a5,a6,a7,a8
    					4.0); //channelWeightDefault
    		}
    	}
@@ -1322,8 +1455,6 @@ import org.apache.commons.configuration.XMLConfiguration;
    			}
    		}
    	}
    }
--- a/src/main/java/EyesisSubCameraParameters.java
+++ b/src/main/java/EyesisSubCameraParameters.java
@@ -47,6 +47,24 @@ import java.util.Properties;
 		public double channelWeightCurrent=1.0;
 		public int [][] defectsXY=null; // pixel defects coordinates list (starting with worst)
 		public double [] defectsDiff=null; // pixel defects value (diff from average of neighbors), matching defectsXY
+		final private double [][] r_xy_dflt={{0.0,0.0},{0.0,0.0},{0.0,0.0},{0.0,0.0},{0.0,0.0},{0.0,0.0}}; // only 6, as for the first term delta x, delta y ==0  
+		final private double [][] r_od_dflt=   {{0.0,0.0},{0.0,0.0},{0.0,0.0},{0.0,0.0},{0.0,0.0},{0.0,0.0},{0.0,0.0}}; // ortho
+		public double [][] r_xy=null; // only 6, as for the first term delta x, delta y ==0  
+		public double [][] r_od=null; // ortho
+		/*
+		 Modifying to accommodate for eccentricity of different terms (2 parameters per term) and elliptical shape (another 2 terms). When all are
+		 zeroes, the old parameters are in effect:
+				Rdist/R=A8*R^7+A7*R^6+A6*R^5+A5*R^4+A*R^3+B*R^2+C*R+(1-A6-A7-A6-A5-A-B-C)");
+				Rdist/R=A8*R6^7+A7*R5^6+A6*R4^5+A5*R3^4+A*R2^3+B*R1^2+C*R0+(1-A6-A7-A6-A5-A-B-C)");
+				R[i] depends on px,py and r_xy[i][], r_o[i] (positive - "landscape", negative - "portrait"), r_d (positive - along y=x, negative - along y=-x)
+				R[i] = r0[i]*(1+  (r_od[i][0]*(y[i]**2-x[i]**2)+ 2*r_od[i][1]*x[i]*y[i])/r0[i]**2;
+				r0[i]=sqrt(x[i]**2+y[2]**2)
+				x[i]=pixel_x-px0-((i>0)?r_xy[i-1][0]:0) 
+				y[i]=pixel_y-py0-((i>0)?r_xy[i-1][1]:0)
+		*/		
    	public EyesisSubCameraParameters(
    			double azimuth, // azimuth of the lens entrance pupil center, degrees, clockwise looking from top
    			double radius,  // mm, distance from the rotation axis
@@ -66,6 +84,8 @@ import java.util.Properties;
    			double distortionC, // r^2
    			double px0,           // center of the lens on the sensor, pixels
    			double py0,           // center of the lens on the sensor, pixels
+				double [][] r_xy,     // eccentricity for b,a,a5,a6,a7,a8
+				double [][] r_od,     // elongation for c,b,a,a5,a6,a7,a8
    			double channelWeightDefault
    	){
    		this.azimuth=azimuth;
@@ -86,6 +106,12 @@ import java.util.Properties;
    		this.distortionC=distortionC; // r^2
    		this.px0=px0;
    		this.py0=py0;
+			if (r_xy==null) r_xy=r_xy_dflt;
+			if (r_od==null) r_od=r_od_dflt;
+			this.r_xy=new double [r_xy.length][2];
+			for (int i=0;i<r_xy.length;i++)this.r_xy[i]=r_xy[i].clone();
+			this.r_od=new double [r_od.length][2];
+			for (int i=0;i<r_od.length;i++)this.r_od[i]=r_od[i].clone();
    		this.channelWeightDefault=channelWeightDefault;
    		this.channelWeightCurrent=this.channelWeightDefault;
    		this.defectsXY=null; // pixel defects coordinates list (starting with worst)
@@ -113,10 +139,18 @@ import java.util.Properties;
    	    		this.distortionC,
    	    		this.px0,
    	    		this.py0,
+    				this.r_xy,
+    				this.r_od,
    	    		this.channelWeightDefault
    				);
    	}
+    	public void setDefaultNonRadial(){
+			r_od=new double [r_od_dflt.length][2];
+			for (int i=0;i<r_od.length;i++) r_od[i]=r_od_dflt[i].clone();
+			r_xy=new double [r_xy_dflt.length][2];
+			for (int i=0;i<r_xy.length;i++) r_xy[i]=r_xy_dflt[i].clone();
+    	}
+// TODO: add/restore new properties
    	public void setProperties(String prefix,Properties properties){
    		properties.setProperty(prefix+"azimuth",this.azimuth+"");
    		properties.setProperty(prefix+"radius",this.radius+"");
@@ -136,6 +170,14 @@ import java.util.Properties;
 			properties.setProperty(prefix+"distortionC",this.distortionC+"");
 			properties.setProperty(prefix+"px0",this.px0+"");
 			properties.setProperty(prefix+"py0",this.py0+"");
+			for (int i=0;i<this.r_xy.length;i++){
+				properties.setProperty(prefix+"r_xy_"+i+"_x",this.r_xy[i][0]+"");
+				properties.setProperty(prefix+"r_xy_"+i+"_y",this.r_xy[i][1]+"");
+			}
+			for (int i=0;i<this.r_od.length;i++){
+				properties.setProperty(prefix+"r_od_"+i+"_o",this.r_od[i][0]+"");
+				properties.setProperty(prefix+"r_od_"+i+"_d",this.r_od[i][1]+"");
+			}
 			properties.setProperty(prefix+"channelWeightDefault",this.channelWeightDefault+"");
    	}
    	public void getProperties(String prefix,Properties properties){
@@ -175,9 +217,19 @@ import java.util.Properties;
 				this.px0=Double.parseDouble(properties.getProperty(prefix+"px0"));
 			if (properties.getProperty(prefix+"py0")!=null)
 				this.py0=Double.parseDouble(properties.getProperty(prefix+"py0"));
+			setDefaultNonRadial();
+			for (int i=0;i<this.r_xy.length;i++){
+				if (properties.getProperty(prefix+"r_xy_"+i+"_x")!=null) this.r_xy[i][0]=Double.parseDouble(properties.getProperty(prefix+"r_xy_"+i+"_x"));
+				if (properties.getProperty(prefix+"r_xy_"+i+"_y")!=null) this.r_xy[i][1]=Double.parseDouble(properties.getProperty(prefix+"r_xy_"+i+"_y"));
+			}
+			for (int i=0;i<this.r_od.length;i++){
+				if (properties.getProperty(prefix+"r_od_"+i+"_o")!=null) this.r_od[i][0]=Double.parseDouble(properties.getProperty(prefix+"r_od_"+i+"_o"));
+				if (properties.getProperty(prefix+"r_od_"+i+"_d")!=null) this.r_od[i][1]=Double.parseDouble(properties.getProperty(prefix+"r_od_"+i+"_d"));
+			}
 			if (properties.getProperty(prefix+"channelWeightDefault")!=null) {
 				this.channelWeightDefault=Double.parseDouble(properties.getProperty(prefix+"channelWeightDefault"));
-	    		this.channelWeightCurrent=this.channelWeightDefault;
+				this.channelWeightCurrent=this.channelWeightDefault;
 			}
    	}
    	public void setChannelWeightCurrent(
@@ -190,5 +242,4 @@ import java.util.Properties;
    	public double getChannelWeightDefault(){
    		return this.channelWeightDefault;
    	}
    }
--- a/src/main/java/FittingStrategy.java
+++ b/src/main/java/FittingStrategy.java
@@ -422,6 +422,34 @@ I* - special case when the subcamera is being adjusted/replaced. How to deal wit
 			this.pathName=pathname;
        	return true;
        }
+        public int findLastValidSeries(int numSeries){
+        	for (;numSeries>=0;numSeries--) if (isSeriesValid(numSeries)) return numSeries;
+        	return -1; // none valid
+        }
+        public boolean copySeries(int sourceSeries, int numSeries){
+     		if (isSeriesValid(sourceSeries)){
+    				invalidateSelectedImages(numSeries); // just in case -= will be recalculated
+    				for (int i =0; i<this.distortionCalibrationData.getNumImages();i++){
+    					this.selectedImages[numSeries][i]=this.selectedImages[sourceSeries][i]; // copy for all, not only enabled
+    				}
+    				for (int i =0; i<this.parameterEnable.length;i++) if (this.parameterEnable[i]){
+    					this.parameterMode[numSeries][i]=this.parameterMode[sourceSeries][i];
+    					this.parameterGroups[numSeries][i]=(this.parameterGroups[sourceSeries][i]==null)?null:this.parameterGroups[sourceSeries][i].clone();
+    				}
+    				this.masterImages[numSeries]=this.masterImages[sourceSeries];
+    				this.lambdas[numSeries]=this.lambdas[sourceSeries];
+    				this.stepDone[numSeries]=this.stepDone[sourceSeries];
+    				this.stopAfterThis[numSeries]=this.stopAfterThis[sourceSeries];
+    				this.varianceModes[numSeries]=this.varianceModes[sourceSeries];
+    				this.zGroups[numSeries]=(this.zGroups[sourceSeries]!=null)?this.zGroups[sourceSeries].clone():null;
+    				return true;
+    		} else {
+    			return false;
+    		}
+        }
        /**
         * Verifies that series exists and is not empty (valid for LMA)
         * @param num - series to verify
@@ -1406,31 +1434,13 @@ I* - special case when the subcamera is being adjusted/replaced. How to deal wit
    			sNumNewEnabledPerStation+=numNewEnabledPerStation[i];
    		}
     		if (!isSeriesValid(numSeries)){
-    			int sourceSeries=-1;
+    			int sourceSeries= findLastValidSeries(numSeries);
-    			for (int i=numSeries-1;i>=0;i--) if (isSeriesValid(i)){
+    			if (sourceSeries>=0)  copySeries(sourceSeries, numSeries);
-    				sourceSeries=i;
-    				break;
-    			}
-    			if (sourceSeries>=0){
-    				invalidateSelectedImages(numSeries); // just in case -= will be recalculated
-    				for (int i =0; i<this.distortionCalibrationData.getNumImages();i++){
-    					this.selectedImages[numSeries][i]=this.selectedImages[sourceSeries][i]; // copy for all, not only enabled
-    				}
-    				for (int i =0; i<this.parameterEnable.length;i++) if (this.parameterEnable[i]){
-    					this.parameterMode[numSeries][i]=this.parameterMode[sourceSeries][i];
-    					this.parameterGroups[numSeries][i]=(this.parameterGroups[sourceSeries][i]==null)?null:this.parameterGroups[sourceSeries][i].clone();
-    				}
-    				this.masterImages[numSeries]=this.masterImages[sourceSeries];
-    				this.lambdas[numSeries]=this.lambdas[sourceSeries];
-    				this.stepDone[numSeries]=this.stepDone[sourceSeries];
-    				this.stopAfterThis[numSeries]=this.stopAfterThis[sourceSeries];
-    				this.varianceModes[numSeries]=this.varianceModes[sourceSeries];
-    				this.zGroups[numSeries]=(this.zGroups[sourceSeries]!=null)?this.zGroups[sourceSeries].clone():null;
-    			}
    		}
 			GenericDialog gd = new GenericDialog("Fitting Strategy Step Configuration, step "+numSeries+" number of enabled images="+this.distortionCalibrationData.getNumEnabled());
-			gd.addCheckbox("Copy all from previous series (ignore all other fields)", false);
+			gd.addCheckbox("Copy all from the series below, ignore all other fields", false);
+			gd.addNumericField("Source series to copy from", (numSeries>0)?(numSeries-1):(numSeries+1), 0, 3, "");
 			gd.addCheckbox("Remove all (but first) images, reopen dialog", false); // remove all will be invalid, copied from the previous
 			gd.addCheckbox("Select all images, reopen dialog", false);
 			if (numEstimated>0){
@@ -1571,6 +1581,7 @@ I* - special case when the subcamera is being adjusted/replaced. How to deal wit
 			gd.showDialog();
 			if (gd.wasCanceled()) return -2;
 			boolean copyFromPrevious=gd.getNextBoolean();
+			int sourceStrategy= (int) gd.getNextNumber();
 			boolean removeAllImages=gd.getNextBoolean();
 			boolean selectAllImages=gd.getNextBoolean();
 			boolean selectEstimated=false;
@@ -1595,7 +1606,17 @@ I* - special case when the subcamera is being adjusted/replaced. How to deal wit
 				return numSeries; // caller will repeat with the same series
 			}
-			if (copyFromPrevious || removeAllImages || selectAllImages) {
+			if (copyFromPrevious){
+    			int sourceSeries= findLastValidSeries(sourceStrategy);
+    			if (sourceSeries>=0) {
+    				copySeries(sourceSeries, numSeries);
+    			} else {
+    				System.out.println("Could not copy from invalid series "+sourceSeries);
+    			}
+				return numSeries; // caller will repeat with the same series
+			}
+			if (removeAllImages || selectAllImages) {
+//				
 				for (int i =0; i<this.distortionCalibrationData.getNumImages();i++){
 //					this.selectedImages[numSeries][i]=false; // invalidate - all, regardless of .enabled
 					this.selectedImages[numSeries][i]=selectAllImages || ((i==0) && removeAllImages); // invalidate - all, regardless of .enabled
@@ -1777,7 +1798,7 @@ I* - special case when the subcamera is being adjusted/replaced. How to deal wit
 		}
    	public boolean selectStrategy(int startSerNumber){
-    		int defaultLength=20;
+    		int defaultLength=30;
    		boolean selectImages=    false;
    		boolean allImages=       false;
    		boolean selectParameters=true;

--- a/src/main/java/LensDistortionParameters.java
+++ b/src/main/java/LensDistortionParameters.java
+import java.util.Arrays;
 import java.util.Properties;
 import ij.IJ;
@@ -17,9 +18,10 @@ import Jama.Matrix;
 		 */
 		// lens parameters (add more later)
-		final int numInputs=27; // with A8...// 24;   // parameters in subcamera+...
+		final int numInputs= 53; //27; // with A8...// 24;   // parameters in subcamera+...
-	    final int numOutputs=16; // with A8...//13;  // parameters in a single camera
+	    final int numOutputs=42; //16; // with A8...//13;  // parameters in a single camera
+//		final
+		boolean cummulativeCorrection=true; // r_xy, r_od for higher terms are relative to lower ones
 		public double focalLength=4.5;
 		public double pixelSize=  2.2; //um
 		public double distortionRadius=  2.8512; // mm - half width of the sensor
@@ -41,8 +43,32 @@ import Jama.Matrix;
 		public double px0=1296.0;           // center of the lens on the sensor, pixels
 		public double py0=968.0;           // center of the lens on the sensor, pixels
 		public boolean flipVertical; // acquired image is mirrored vertically (mirror used)
-		public int debugLevel=1; // was 2
+		// new non-radial parameters
+		final private double [][] r_xy_dflt={{0.0,0.0},{0.0,0.0},{0.0,0.0},{0.0,0.0},{0.0,0.0},{0.0,0.0}}; // only 6, as for the first term delta x, delta y ==0  
+		final private double [][] r_od_dflt=   {{0.0,0.0},{0.0,0.0},{0.0,0.0},{0.0,0.0},{0.0,0.0},{0.0,0.0},{0.0,0.0}}; // ortho
+		public double [][] r_xy=null; // only 6, as for the first term delta x, delta y ==0  
+		public double [][] r_od=null; // ortho
+		public double [][] r_xyod=null; //{x0,y0,ortho, diagonal}   
+		// total number of new parameters = 6*2+7+7=26
+		public int debugLevel=1; // was 2
+/*
+ Modifying to accommodate for eccentricity of different terms (2 parameters per term) and elliptical shape (another 2 terms). When all are
+ zeroes, the old parameters are in effect:
+		Rdist/R=A8*R^7+A7*R^6+A6*R^5+A5*R^4+A*R^3+B*R^2+C*R+(1-A6-A7-A6-A5-A-B-C)");
+		Rdist/R=A8*R6^7+A7*R5^6+A6*R4^5+A5*R3^4+A*R2^3+B*R1^2+C*R0+(1-A6-A7-A6-A5-A-B-C)");
+		R[i] depends on px,py and r_xy[i][], r_o[i] (positive - "landscape", negative - "portrait"), r_d (positive - along y=x, negative - along y=-x)
+		R[i] = r0[i]*(1+  (r_od[i][0]*(y[i]**2-x[i]**2)+ 2*r_od[i][1]*x[i]*y[i])/r0[i]**2;
+		r0[i]=sqrt(x[i]**2+y[2]**2)
+		x[i]=pixel_x-px0-((i>0)?r_xy[i-1][0]:0) 
+		y[i]=pixel_y-py0-((i>0)?r_xy[i-1][1]:0)
+*/		
 // intermediate values
 		public double phi, theta,psi,cPH,sPH,cTH,sTH,cPS,sPS;
 		public double [][] rotMatrix=new double[3][3]; // includes mirroring for Y (target coordinates y- down, camera - y  up)
@@ -86,9 +112,11 @@ import Jama.Matrix;
 				double y0,      // lens axis from pattern center, mm (down)
 				double z0,      // lens axis from pattern center, mm (away from the camera)
 				double distance, // distance from the lens input pupil to the pattern plane along the camera axis, mm
-				double px0,           // center of the lens on the senosr, pixels
+				double px0,           // center of the lens on the sensor, pixels
-				double py0,           // center of the lens on the senosr, pixels
+				double py0,           // center of the lens on the sensor, pixels
-				boolean flipVertical // acquired image is mirrored vertically (mirror used)
+				boolean flipVertical, // acquired image is mirrored vertically (mirror used)
+				double [][] r_xy,  
+				double [][] r_od
 		){
 			setLensDistortionParameters(
 			focalLength,
@@ -110,29 +138,36 @@ import Jama.Matrix;
 			distance,
 			px0,
 			py0,
-			flipVertical);
+			flipVertical,
+			r_xy,  
+			r_od);
 		}
 		public LensDistortionParameters(){
-			this.focalLength=4.5;
+			setLensDistortionParameters(
-			this.pixelSize=2.2;
+			4.5,    // focalLength,
-			this.distortionRadius=2.8512;
+			2.2,    // pixelSize,
-			this.distortionA8=0.0;
+			2.8512, // distortionRadius,
-			this.distortionA7=0.0;
+			0.0,    // distortionA8,
-			this.distortionA6=0.0;
+			0.0,    // distortionA7,
-			this.distortionA5=0.0;
+			0.0,    // distortionA6,
-			this.distortionA=0.0;
+			0.0,    // distortionA5,
-			this.distortionB=0.0;
+			0.0,    // distortionA,
-			this.distortionC=0.0;
+			0.0,    // distortionB,
-			this.yaw=0.0;
+			0.0,    // distortionC,
-			this.pitch=0.0;
+			0.0,    // yaw,
-			this.roll=0.0;
+			0.0,    // pitch,
-			this.x0=0.0;
+			0.0,    // roll,
-			this.y0=0.0;
+			0.0,    // x0,
-			this.z0=0.0;
+			0.0,    // y0,
-			this.distance=2360.0;
+			0.0,    // z0,
-			this.px0=1296.0;
+			2360.0, // distance,
-			this.py0=968.0;
+			1296,   // px0,
-			this.flipVertical=true;
+			698,    // py0,
+			true,   // flipVertical,
+			null,   // r_xy,  
+			null   // r_od,
+			);
 		}
 		public LensDistortionParameters clone() {
 			return new LensDistortionParameters(
@@ -155,7 +190,9 @@ import Jama.Matrix;
 					this.distance,
 					this.px0,
 					this.py0,
-					this.flipVertical
+					this.flipVertical,
+					this.r_xy,
+					this.r_od
 			);
 		}
 		public void setLensDistortionParameters(
@@ -179,7 +216,9 @@ import Jama.Matrix;
 				double distance, // distance from the lens input pupil to the pattern plane along the camera axis, mm
 				double px0,           // center of the lens on the sensor, pixels
 				double py0,           // center of the lens on the sensor, pixels
-				boolean flipVertical // acquired image is mirrored vertically (mirror used)
+				boolean flipVertical, // acquired image is mirrored vertically (mirror used)
+				double [][] r_xy,   // per polynomial term center x,y correction only 6, as for the first term delta x, delta y ==0  
+				double [][] r_od   // per polynomial term orthogonal+diagonal elongation
 		){
 			this.focalLength=focalLength;
 			this.pixelSize=pixelSize;
@@ -201,8 +240,15 @@ import Jama.Matrix;
 			this.px0=px0;
 			this.py0=py0;
 			this.flipVertical=flipVertical;
+			if (r_xy==null) r_xy=r_xy_dflt;
+			if (r_od==null) r_od=r_od_dflt;
+			this.r_xy=new double [r_xy.length][2];
+			for (int i=0;i<r_xy.length;i++)this.r_xy[i]=r_xy[i].clone();
+			this.r_od=new double [r_od.length][2];
+			for (int i=0;i<r_od.length;i++)this.r_od[i]=r_od[i].clone();
 			recalcCommons();
 		}
 		public void setIntrincicFromSubcamera(EyesisSubCameraParameters pars){
 			setLensDistortionParameters(
 					pars.focalLength,
@@ -225,40 +271,49 @@ import Jama.Matrix;
 					this.distance,     // (keep) distance from the lens input pupil to the pattern plane along the camera axis, mm
 					pars.px0,          //        center of the lens on the sensor, pixels
 					pars.py0,          // center of the lens on the sensor, pixels
-					this.flipVertical  // (keep)  acquired image is mirrored vertically (mirror used)
+					this.flipVertical, // (keep)  acquired image is mirrored vertically (mirror used)
+					pars.r_xy,         // do not exist yet!
+					pars.r_od          // do not exist yet!
 			);
 		}
 		public void setLensDistortionParameters(LensDistortionParameters ldp
 		){
-			this.focalLength=ldp.focalLength;
+			setLensDistortionParameters(
-			this.pixelSize=ldp.pixelSize;
+					ldp.focalLength,
-			this.distortionRadius=ldp.distortionRadius;
+					ldp.pixelSize,
-			this.distortionA8=ldp.distortionA8;
+					ldp.distortionRadius,
-			this.distortionA7=ldp.distortionA7;
+					ldp.distortionA8,
-			this.distortionA6=ldp.distortionA6;
+					ldp.distortionA7,
-			this.distortionA5=ldp.distortionA5;
+					ldp.distortionA6,
-			this.distortionA=ldp.distortionA;
+					ldp.distortionA5,
-			this.distortionB=ldp.distortionB;
+					ldp.distortionA,
-			this.distortionC=ldp.distortionC;
+					ldp.distortionB,
-			this.yaw=ldp.yaw;
+					ldp.distortionC,
-			this.pitch=ldp.pitch;
+					ldp.yaw,
-			this.roll=ldp.roll;
+					ldp.pitch,
-			this.x0=ldp.x0;
+					ldp.roll,
-			this.y0=ldp.y0;
+					ldp.x0,
-			this.z0=ldp.z0;
+					ldp.y0,
-			this.distance=ldp.distance;
+					ldp.z0,
-			this.px0=ldp.px0;
+					ldp.distance,
-			this.py0=ldp.py0;
+					ldp.px0,
-			this.flipVertical=ldp.flipVertical;
+					ldp.py0,
-			recalcCommons();
+					ldp.flipVertical,
+					ldp.r_xy,  
+					ldp.r_od);
 		}
+// TODO: Fix for non-radial !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!		
 		// just for debugging				
 		public void setLensDistortionParameters(LensDistortionParameters ldp,
 				int index, // parameter to add delta, 1..13->14->17
 				double delta
 		){
+/*			
 			this.focalLength=ldp.focalLength+((index==7)?delta:0);
 			this.pixelSize=ldp.pixelSize;
 			this.distortionRadius=ldp.distortionRadius;
@@ -279,11 +334,44 @@ import Jama.Matrix;
 			this.px0=ldp.px0+((index==16)?delta:0);
 			this.py0=ldp.py0+((index==17)?delta:0);
 			this.flipVertical=ldp.flipVertical;
+*/			
+			setLensDistortionParameters(ldp);
+			final int index_r_xy=18;
+			final int index_r_od=30;
+			final int index_end=44;
+			switch (index){
+			case 1: this.yaw+=delta; break;
+			case 2: this.pitch+=delta; break; //=ldp.pitch+((index==2)?delta:0);
+			case 3: this.roll+=delta; break; // =ldp.roll+((index==3)?delta:0);
+			case 4: this.x0+=delta; break; // =ldp.x0+((index==4)?delta:0);
+			case 5: this.y0+=delta; break; // =ldp.y0+((index==5)?delta:0);
+			case 6: this.z0+=delta; break; // =ldp.z0+((index==6)?delta:0);
+			case 7: this.focalLength+=delta; break; // =ldp.focalLength+((index==7)?delta:0);
+			case 8: this.distance+=delta; break; // =ldp.distance+((index==8)?delta:0);
+			case 9: this.distortionA8+=delta; break; // =ldp.distortionA8+((index==9)?delta:0);
+			case 10: this.distortionA7+=delta; break; // =ldp.distortionA7+((index==10)?delta:0);
+			case 11: this.distortionA6+=delta; break; // =ldp.distortionA6+((index==11)?delta:0);
+			case 12: this.distortionA5+=delta; break; // =ldp.distortionA5+((index==12)?delta:0);
+			case 13: this.distortionA+=delta; break; // =ldp.distortionA+((index==13)?delta:0);
+			case 14: this.distortionB+=delta; break; // =ldp.distortionB+((index==14)?delta:0);
+			case 15: this.distortionC+=delta; break; // =ldp.distortionC+((index==15)?delta:0);
+			case 16: this.px0+=delta; break; // =ldp.px0+((index==16)?delta:0);
+			case 17: this.py0+=delta; break; // =ldp.py0+((index==17)?delta:0);
+			default:
+				if ((index>=index_r_xy) && (index<index_r_od)){
+					this.r_xy[(index-index_r_xy)/2][(index-index_r_xy)%2]+=delta;
+				} else if ((index>=index_r_od) && (index<index_end)){
+					this.r_od[(index-index_r_od)/2][(index-index_r_od)%2]+=delta;
+				}
+			}
 			recalcCommons();
 		}
 // recalculate common (point-invariant) intermediate values (cos, sin, rotation matrix) 		
-        public void recalcCommons(){
+		public void recalcCommons(){
+//        	this.cummulativeCorrection=false; // just debugging
 //		public double phi, theta,psi,cPH,sPH,cTH,sTH,cPS,sPS;
 //    		public double [][] rotMatrix=new double[3][3];
        	this.phi=  this.yaw*Math.PI/180;
@@ -332,7 +420,27 @@ dPXmmc/dphi=
           		System.out.println("recalcCommons():this.rotMatrix:");
        		(new Matrix(this.rotMatrix)).print(10, 5);
           	}
+           	//
+    		this.r_xyod=new double [this.r_od.length][4]; //{x0,y0,ortho, diagonal}
+    		this.r_xyod[0][0]=0.0; // this.px0; //
+    		this.r_xyod[0][1]=0.0; // this.py0;
+    		this.r_xyod[0][2]=this.r_od[0][0];
+    		this.r_xyod[0][3]=this.r_od[0][1];
+    		if (cummulativeCorrection){
+    			for (int i=1;i<this.r_xyod.length;i++){
+    	    		this.r_xyod[i][0]=this.r_xyod[i-1][0]+this.r_xy[i-1][0];
+    	    		this.r_xyod[i][1]=this.r_xyod[i-1][1]+this.r_xy[i-1][1];
+    	    		this.r_xyod[i][2]=this.r_xyod[i-1][2]+this.r_od[i][0];
+    	    		this.r_xyod[i][3]=this.r_xyod[i-1][3]+this.r_od[i][1];
+    			}
+    		} else {
+    			for (int i=1;i<this.r_xyod.length;i++){
+    	    		this.r_xyod[i][0]=this.r_xy[i-1][0]; // this.px0+this.r_xy[i-1][0];
+    	    		this.r_xyod[i][1]=this.r_xy[i-1][1]; // this.py0+this.r_xy[i-1][1];
+    	    		this.r_xyod[i][2]=this.r_od[i][0];
+    	    		this.r_xyod[i][3]=this.r_od[i][1];
+    			}
+    		}
        }
        private String [][] descriptions=
@@ -352,7 +460,39 @@ dPXmmc/dphi=
        		{"distortionA5","Lens distortion coefficient for r^5 (r0=half sensor width)", "r0","i"},
        		{"distortionA", "Lens distortion coefficient for r^4 (r0=half sensor width)", "r0","i"},
        		{"distortionB", "Lens distortion coefficient for r^3 (r0=half sensor width)", "r0","i"},
-        		{"distortionC", "Lens distortion coefficient for r^2 (r0=half sensor width)", "r0","i"}
+        		{"distortionC", "Lens distortion coefficient for r^2 (r0=half sensor width)", "r0","i"},
+        		{"elong_C_o",   "Orthogonal elongation for r^2", "rel","i"},
+        		{"elong_C_d",   "Diagonal   elongation for r^2", "rel","i"},
+        		{"eccen_B_x",   "Distortion center shift X for r^3", "rel","i"},
+        		{"eccen_B_y",   "Distortion center shift Y for r^3", "rel","i"},
+        		{"elong_B_o",   "Orthogonal elongation for r^3", "rel","i"},
+        		{"elong_B_d",   "Diagonal   elongation for r^3", "rel","i"},
+        		{"eccen_A_x",   "Distortion center shift X for r^4", "rel","i"},
+        		{"eccen_A_y",   "Distortion center shift Y for r^4", "rel","i"},
+        		{"elong_A_o",   "Orthogonal elongation for r^4", "rel","i"},
+        		{"elong_A_d",   "Diagonal   elongation for r^4", "rel","i"},
+        		{"eccen_A5_x",  "Distortion center shift X for r^5", "rel","i"},
+        		{"eccen_A5_y",  "Distortion center shift Y for r^5", "rel","i"},
+        		{"elong_A5_o",  "Orthogonal elongation for r^5", "rel","i"},
+        		{"elong_A5_d",  "Diagonal   elongation for r^5", "rel","i"},
+        		{"eccen_A6_x",  "Distortion center shift X for r^6", "rel","i"},
+        		{"eccen_A6_y",  "Distortion center shift Y for r^6", "rel","i"},
+        		{"elong_A6_o",  "Orthogonal elongation for r^6", "rel","i"},
+        		{"elong_A6_d",  "Diagonal   elongation for r^6", "rel","i"},
+        		{"eccen_A7_x",  "Distortion center shift X for r^7", "rel","i"},
+        		{"eccen_A7_y",  "Distortion center shift Y for r^7", "rel","i"},
+        		{"elong_A7_o",  "Orthogonal elongation for r^7", "rel","i"},
+        		{"elong_A7_d",  "Diagonal   elongation for r^7", "rel","i"},
+        		{"eccen_A8_x",  "Distortion center shift X for r^8", "rel","i"},
+        		{"eccen_A8_y",  "Distortion center shift Y for r^8", "rel","i"},
+        		{"elong_A8_o",  "Orthogonal elongation for r^8", "rel","i"},
+        		{"elong_A8_d",  "Diagonal   elongation for r^8", "rel","i"}
        };
        private int numberIntExtrisic(String type){
        	int num=0;
@@ -361,7 +501,7 @@ dPXmmc/dphi=
        }
        /**
         * Verifies that the camera is looking towards the target
-         * @return true if looking tio the target, false - if away
+         * @return true if looking to the target, false - if away
         */
        public boolean isTargetVisible(boolean verbose){
        	if (verbose) System.out.println("isTargetVisible(): this.distance="+this.distance+", this.yaw="+this.yaw+", this.pitch="+this.pitch);
@@ -383,7 +523,7 @@ dPXmmc/dphi=
        	return extVector;
        }
        public double [] getIntrinsicVector(){
-        	double [] extVector = {
+        	double [] intVector = {
        			this.focalLength,
        			this.px0,
        			this.py0,
@@ -393,15 +533,47 @@ dPXmmc/dphi=
        			this.distortionA5,
        			this.distortionA,
        			this.distortionB,
-        			this.distortionC
+        			this.distortionC,
+        			this.r_od[0][0],
+        			this.r_od[0][1],
+        			this.r_xy[0][0],
+        			this.r_xy[0][1],
+        			this.r_od[1][0],
+        			this.r_od[1][1],
+        			this.r_xy[1][0],
+        			this.r_xy[1][1],
+        			this.r_od[2][0],
+        			this.r_od[2][1],
+        			this.r_xy[2][0],
+        			this.r_xy[2][1],
+        			this.r_od[3][0],
+        			this.r_od[3][1],
+        			this.r_xy[3][0],
+        			this.r_xy[3][1],
+        			this.r_od[4][0],
+        			this.r_od[4][1],
+        			this.r_xy[4][0],
+        			this.r_xy[4][1],
+        			this.r_od[5][0],
+        			this.r_od[5][1],
+        			this.r_xy[5][0],
+        			this.r_xy[5][1],
+        			this.r_od[6][0],
+        			this.r_od[6][1]
        	};
-        	return extVector;
+        	return intVector;
        }
        public double [] getAllVector(){
-        	double [] allVector = new double[getExtrinsicVector().length+getIntrinsicVector().length];
-        	int index=0;
        	double [] extVector=getExtrinsicVector();
        	double [] intVector=getIntrinsicVector();
+        	double [] allVector = new double[extVector.length+intVector.length];
+        	int index=0;
        	for (int i=0;i<extVector.length;i++) allVector[index++]= extVector[i];
        	for (int i=0;i<intVector.length;i++) allVector[index++]= intVector[i];
        	return allVector;
@@ -428,6 +600,25 @@ dPXmmc/dphi=
        	this.distortionA= vector[13];
        	this.distortionB= vector[14];
        	this.distortionC= vector[15];
+        	int index=16;
+        	for (int i=0;i<this.r_od.length;i++){
+        		if (i>0) {
+            		this.r_xy[i-1][0]=vector[index++];
+            		this.r_xy[i-1][1]=vector[index++];
+        		}
+        		this.r_od[i][0]=vector[index++];
+        		this.r_od[i][1]=vector[index++];
+        	}
+        	/*
+        	for (int i=0;i<this.r_xy.length;i++){
+        		this.r_xy[i][0]=vector[index++];
+        		this.r_xy[i][1]=vector[index++];
+        	}
+        	for (int i=0;i<this.r_od.length;i++){
+        		this.r_od[i][0]=vector[index++];
+        		this.r_od[i][1]=vector[index++];
+        	}
+        	*/
        	recalcCommons();
        }
@@ -518,7 +709,40 @@ dPXmmc/dphi=
        			12, // 12		public double distortionA5=0.0; // r^5 (normalized to focal length or to sensor half width?)
        			13, // 13		public double distortionA=0.0; // r^4 (normalized to focal length or to sensor half width?)
        			14, // 14		public double distortionB=0.0; // r^3
-        			15  // 15		public double distortionC=0.0; // r^2
+        			15, // 15		public double distortionC=0.0; // r^2
+        			18, // 16		Orthogonal elongation for r^2"
+        			19, // 17		Diagonal   elongation for r^2"
+        			20, // 18		Distortion center shift X for r^3"
+        			21, // 19		Distortion center shift Y for r^3"
+        			22, // 20		Orthogonal elongation for r^3"
+        			23, // 21		Diagonal   elongation for r^3"
+        			24, // 22		Distortion center shift X for r^4"
+        			25, // 23		Distortion center shift Y for r^4"
+        			26, // 24		Orthogonal elongation for r^4"
+        			27, // 25		Diagonal   elongation for r^4"
+        			28, // 26		Distortion center shift X for r^5"
+        			29, // 27		Distortion center shift Y for r^5"
+        			30, // 28		Orthogonal elongation for r^5"
+        			31, // 29		Diagonal   elongation for r^5"
+        			32, // 30		Distortion center shift X for r^6"
+        			33, // 31		Distortion center shift Y for r^6"
+        			34, // 32		Orthogonal elongation for r^6"
+        			35, // 33		Diagonal   elongation for r^6"
+        			36, // 34		Distortion center shift X for r^7"
+        			37, // 35		Distortion center shift Y for r^7"
+        			38, // 36		Orthogonal elongation for r^6"
+        			39, // 37		Diagonal   elongation for r^6"
+        			40, // 38		Distortion center shift X for r^8"
+        			41, // 29		Distortion center shift Y for r^8"
+        			42, // 40		Orthogonal elongation for r^8"
+        			43  // 41		Diagonal   elongation for r^8"
        	};
        	double [][] result = new double [order.length][2];
        	for (int i=0; i<order.length;i++){
@@ -526,8 +750,15 @@ dPXmmc/dphi=
        		result[i][1]=srcDerivatives[order[i]][1];
        	}
        	return result;
        }
+/*
+ * result = {{srcDerivatives[4][0],srcDerivatives[4][1]}, - X0
+ *           {srcDerivatives[5][0],srcDerivatives[5][1]}  - Y0      
+ *           {srcDerivatives[8][0],srcDerivatives[8][1]}  - dist 
+ *           ...     
+ */
 /**
 * Reorder to match the sequence of names - seems to be different :-(        
 * @param srcDerivatives  values and 15 derivatives for px, py
@@ -550,7 +781,40 @@ dPXmmc/dphi=
        			12, // 12		public double distortionA5=0.0; // r^5 (normalized to focal length or to sensor half width?)
        			13, // 13		public double distortionA=0.0; // r^4 (normalized to focal length or to sensor half width?)
        			14, // 14		public double distortionB=0.0; // r^3
-        			15  // 15		public double distortionC=0.0; // r^2
+        			15, // 15		public double distortionC=0.0; // r^2
+        			18, // 16		Orthogonal elongation for r^2"
+        			19, // 17		Diagonal   elongation for r^2"
+        			20, // 18		Distortion center shift X for r^3"
+        			21, // 19		Distortion center shift Y for r^3"
+        			22, // 20		Orthogonal elongation for r^3"
+        			23, // 21		Diagonal   elongation for r^3"
+        			24, // 22		Distortion center shift X for r^4"
+        			25, // 23		Distortion center shift Y for r^4"
+        			26, // 24		Orthogonal elongation for r^4"
+        			27, // 25		Diagonal   elongation for r^4"
+        			28, // 26		Distortion center shift X for r^5"
+        			29, // 27		Distortion center shift Y for r^5"
+        			30, // 28		Orthogonal elongation for r^5"
+        			31, // 29		Diagonal   elongation for r^5"
+        			32, // 30		Distortion center shift X for r^6"
+        			33, // 31		Distortion center shift Y for r^6"
+        			34, // 32		Orthogonal elongation for r^6"
+        			35, // 33		Diagonal   elongation for r^6"
+        			36, // 34		Distortion center shift X for r^7"
+        			37, // 35		Distortion center shift Y for r^7"
+        			38, // 36		Orthogonal elongation for r^6"
+        			39, // 37		Diagonal   elongation for r^6"
+        			40, // 38		Distortion center shift X for r^8"
+        			41, // 29		Distortion center shift Y for r^8"
+        			42, // 40		Orthogonal elongation for r^8"
+        			43  // 41		Diagonal   elongation for r^8"
        	};
        	double [][] result = new double [order.length][2];
        	for (int i=0; i<order.length;i++){
@@ -558,7 +822,6 @@ dPXmmc/dphi=
        		result[i][1]=srcDerivatives[order[i]][1];
        	}
        	return result;
        }
 /**
 * Calculate lens center location in target coordinates
@@ -609,32 +872,324 @@ dPXmmc/dphi=
 * [*][15] - pixel x[or y] partial derivative for Dc (distortion coefficient for r^2)
 * [*][16] - pixel x[or y] partial derivative for PX0 (lens axis on the sensor, horizontal, right,in pixels)
 * [*][17] - pixel x[or y] partial derivative for PY0 (lens axis on the sensor, vertical, down, in pixels)
+ * [*][18] - Orthogonal elongation for r^2"
+ * [*][19] - Diagonal   elongation for r^2"
+ * [*][20] - Distortion center shift X for r^3"
+ * [*][21] - Distortion center shift Y for r^3"
+ * [*][22] - Orthogonal elongation for r^3"
+ * [*][23] - Diagonal   elongation for r^3"
+ * [*][24] - Distortion center shift X for r^4"
+ * [*][25] - Distortion center shift Y for r^4"
+ * [*][26] - Orthogonal elongation for r^4"
+ * [*][27] - Diagonal   elongation for r^4"
+ * [*][28] - Distortion center shift X for r^5"
+ * [*][29] - Distortion center shift Y for r^5"
+ * [*][30] - Orthogonal elongation for r^5"
+ * [*][31] - Diagonal   elongation for r^5"
+ * [*][32] - Distortion center shift X for r^6"
+ * [*][33] - Distortion center shift Y for r^6"
+ * [*][34] - Orthogonal elongation for r^6"
+ * [*][35] - Diagonal   elongation for r^6"
+ * [*][36] - Distortion center shift X for r^7"
+ * [*][37] - Distortion center shift Y for r^7"
+ * [*][38] - Orthogonal elongation for r^7"
+ * [*][39] - Diagonal   elongation for r^7"
+ * [*][40] - Distortion center shift X for r^8"
+ * [*][41] - Distortion center shift Y for r^8"
+ * [*][42] - Orthogonal elongation for r^8"
+ * [*][43] - Diagonal   elongation for r^8"
 */
        /*
         * TODO: minimaize calculations for individual {xp,yp,zp}
         */
+        public double ipow(double a, int b){
+        	switch (b) {
+        	case 1: return a;
+        	case 2: return a*a;
+        	case 3: return a*a*a;
+        	case 0: return 1.0;
+        	default:
+        		if (b<0) {
+        			return 1.0/ipow(a,-b);
+        		} else {
+        			int b1=b>>1;
+        		    return ipow(a,b1)*ipow(a,b-b1);
+        		}
+        	}
+        }
        public double [][] calcPartialDerivatives(
        		double xp, // target point horizontal, positive - right,  mm
        		double yp, // target point vertical,   positive - down,  mm
        		double zp, // target point horizontal, positive - away from camera,  mm
        		boolean calculateAll){ // calculate derivatives, false - values only
-        	double partDeriv[][] = new double [calculateAll?18:1][2];
+//        	this.cummulativeCorrection=false; // just debugging
+        	// TODO - add reduced calculations for less terms?
+//        	final int numDerivatives=44; // 18+6*2+7*2; // 18  for radial and 26 more for non-radial
+        	final int numRadialDerivatives=18;
+        	final int numNonRadialDerivatives=26;
+        	final int distortionCIndex=15; // a8->9, a7->10, a6->11, a5->12, a->13, b->14, c->15
+        	double partDeriv[][] = new double [calculateAll?(numRadialDerivatives+numNonRadialDerivatives):1][2];
 //        	double [] XYZ= {xp-this.x0, yp-this.y0, zp-this.z0};
-        	double [] XYZ= {xp-this.x0, yp+this.y0, zp-this.z0};
+        	double [] XYZ= {xp-this.x0, yp+this.y0, zp-this.z0}; // Y - "down" (as in images), not up
        	double [] XeYeZe={
        			this.rotMatrix[0][0]*XYZ[0] + this.rotMatrix[0][1]*XYZ[1] + this.rotMatrix[0][2]*XYZ[2],
        			this.rotMatrix[1][0]*XYZ[0] + this.rotMatrix[1][1]*XYZ[1] + this.rotMatrix[1][2]*XYZ[2],
        			this.rotMatrix[2][0]*XYZ[0] + this.rotMatrix[2][1]*XYZ[1] + this.rotMatrix[2][2]*XYZ[2]+this.distance
        	};
+        	// PXYmmc - pinhole (non-distorted) projection coordinates. metric (in mm)
        	double [] PXYmmc={this.focalLength/XeYeZe[2]*XeYeZe[0],this.focalLength/XeYeZe[2]*XeYeZe[1]};
-        	double r= Math.sqrt(PXYmmc[0]*PXYmmc[0]+PXYmmc[1]*PXYmmc[1]);
+        	// now each term has individual radius
-        	double rr=r/this.distortionRadius;
+//        	double [] rr=new double [r_xyod.length];
-//        	double kD=((this.distortionA*rr+this.distortionB)*rr+this.distortionC)*rr + 1.0-this.distortionA-this.distortionB-this.distortionC;
+        	// Geometric - get to pinhole coordinates on the sensor        	
-        	double kD=((((((this.distortionA8*rr+this.distortionA7)*rr+ this.distortionA6)*rr+ this.distortionA5)*rr+this.distortionA)*rr+this.distortionB)*rr+this.distortionC)*rr +
+            double [][] dXeYeZe=null; //[14];
-        	1.0-this.distortionA8-this.distortionA7-this.distortionA6-this.distortionA5-this.distortionA-this.distortionB-this.distortionC;
+            double [][] dPXYmmc=null;
-        	double [] xyDist={kD*PXYmmc[0],kD*PXYmmc[1]};
+    		/*
+   		 Modifying to accommodate for eccentricity of different terms (2 parameters per term) and elliptical shape (another 2 terms). When all are
+   		 zeroes, the old parameters are in effect:
+   				Rdist/R=A8*R^7+A7*R^6+A6*R^5+A5*R^4+A*R^3+B*R^2+C*R+(1-A6-A7-A6-A5-A-B-C)");
+   				Rdist/R=A8*R6^7+A7*R5^6+A6*R4^5+A5*R3^4+A*R2^3+B*R1^2+C*R0+(1-A6-A7-A6-A5-A-B-C)");
+   				R[i] depends on px,py and r_xy[i][], r_o[i] (positive - "landscape", negative - "portrait"), r_d (positive - along y=x, negative - along y=-x)
+   				R[i] = r0[i]*(1+  (r_od[i][0]*(y[i]**2-x[i]**2)+ 2*r_od[i][1]*x[i]*y[i])/r0[i]**2;
+   				r0[i]=sqrt(x[i]**2+y[2]**2)
+   				x[i]=pixel_x-px0-((i>0)?r_xy[i-1][0]:0) 
+   				y[i]=pixel_y-py0-((i>0)?r_xy[i-1][1]:0)
+   		*/	
+        	double [] a={this.distortionC,this.distortionB,this.distortionA,this.distortionA5,this.distortionA6,this.distortionA7,this.distortionA8};
+        	double deltaX=0.0,deltaY=0.0; // difference between distorted and non-distorted as a fraction of this.distortionRadius
+        	double xmmc=PXYmmc[0]/this.distortionRadius;
+        	double ymmc=PXYmmc[1]/this.distortionRadius;
+        	double dDeltaX_dxmmc=0.0, dDeltaX_dymmc=0.0, dDeltaY_dxmmc=0.0, dDeltaY_dymmc=0;  
+        	if (calculateAll){
+            	for (double [] r:partDeriv) Arrays.fill(r, 0.0); // will fill the [0] (value) too, should be done before calculation of these 2 values
+            	// Geometric - get to pinhole coordinates on the sensor        	
+                dXeYeZe=new double[9][3]; //[14];
+             // Geometric - get to pinhole coordinates on the sensor        	
+                dXeYeZe[0][0]=XeYeZe[0];
+                dXeYeZe[0][1]=XeYeZe[1];
+                dXeYeZe[0][2]=XeYeZe[2];
+    // /dphi            
+                dXeYeZe[1][0]=(-cPS*sPH + sPS*sTH*cPH)*XYZ[0]                    +(-cPS*cPH-sPS*sTH*sPH)*XYZ[2];
+                dXeYeZe[1][1]=(-sPS*sPH-cPS*sTH*cPH)  *XYZ[0]                    +(-sPS*cPH+cPS*sTH*sPH)*XYZ[2];
+                dXeYeZe[1][2]=(cTH*cPH)*XYZ[0]                                     -cTH*sPH* XYZ[2];
+    // /dtheta
+                dXeYeZe[2][0]=(sPS*cTH*sPH)*XYZ[0]              -sPS*sTH*XYZ[1]  +(sPS*cTH*cPH)*XYZ[2];
+                dXeYeZe[2][1]=(-cPS*cTH*sPH)*XYZ[0]             +cPS*sTH*XYZ[1]  +(-cPS*cTH*cPH)*XYZ[2];
+                dXeYeZe[2][2]=(-sTH*sPH)*XYZ[0]                 -cTH*XYZ[1]      -sTH*cPH* XYZ[2];
+    // /dpsi            
+                dXeYeZe[3][0]=(-sPS*cPH+cPS*sTH*sPH)*XYZ[0]     +cPS*cTH*XYZ[1]  +(sPS*sPH+cPS*sTH*cPH)*XYZ[2];
+                dXeYeZe[3][1]=(cPS*cPH+ sPS*sTH*sPH)*XYZ[0]     +sPS*cTH*XYZ[1]  +(-cPS*sPH+sPS*sTH*cPH)*XYZ[2];
+                dXeYeZe[3][2]=0.0;
+    // /dX0
+//              dXeYeZe[4][0]=-cPS*cPH+sPS*sTH*sPH; // bad?
+                dXeYeZe[4][0]=-cPS*cPH-sPS*sTH*sPH; // bad?
+                dXeYeZe[4][1]=-sPS*cPH+cPS*sTH*sPH;
+                dXeYeZe[4][2]=-cTH*sPH;
+    // /dY0
+//                dXeYeZe[5][0]=-sPS*cTH;
+//                dXeYeZe[5][1]= cPS*cTH;
+//                dXeYeZe[5][2]= sTH;
+                dXeYeZe[5][0]=+sPS*cTH;
+                dXeYeZe[5][1]=-cPS*cTH;
+                dXeYeZe[5][2]=-sTH;
+    // /dZ0
+//              dXeYeZe[6][0]= cPS*sPH+sPS*sTH*cPH; //bad?
+                dXeYeZe[6][0]= cPS*sPH-sPS*sTH*cPH; //bad?
+                dXeYeZe[6][1]= sPS*sPH+cPS*sTH*cPH;
+                dXeYeZe[6][2]=-cTH*cPH;
+    // /df
+                dXeYeZe[7][0]=0.0;
+                dXeYeZe[7][1]=0.0;
+                dXeYeZe[7][2]=0.0;
+    // /ddist
+                dXeYeZe[8][0]=0.0;
+                dXeYeZe[8][1]=0.0;
+                dXeYeZe[8][2]=1.0;
+                dPXYmmc=new double[9][2]; //[14];
+             // TODO: move up        	
+//              double [][] dPXYmmc=new double[9][2]; //[14];
+              dPXYmmc[0][0]=PXYmmc[0]; // is it needed? probably not used
+              dPXYmmc[0][1]=PXYmmc[1];
+  //(4) PXmmc =f/Ze*  Xe  // mm, left from the lens axis intersection with the sensor
+  //dPXmmc/dphi   = f/Ze * dXe/dphi - f*Xe/Ze^2 * dZe/dphi
+              dPXYmmc[1][0]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[1][0]-dXeYeZe[0][0]/dXeYeZe[0][2]*dXeYeZe[1][2]);
+  //dPXmmc/dtheta = f/Ze * dXe/dtheta - f*Xe/Ze^2 * dZe/dtheta
+              dPXYmmc[2][0]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[2][0]-dXeYeZe[0][0]/dXeYeZe[0][2]*dXeYeZe[2][2]);
+  //dPXmmc/dpsi   = f/Ze * dXe/dpsi - f*Xe/Ze^2 * dZe/dpsi
+              dPXYmmc[3][0]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[3][0]-dXeYeZe[0][0]/dXeYeZe[0][2]*dXeYeZe[3][2]);
+  //dPXmmc/dX0    = f/Ze * dXe/dX0 - f*Xe/Ze^2 * dZe/dX0
+              dPXYmmc[4][0]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[4][0]-dXeYeZe[0][0]/dXeYeZe[0][2]*dXeYeZe[4][2]);
+  //dPXmmc/dY0    = f/Ze * dXe/dY0 - f*Xe/Ze^2 * dZe/dY0
+              dPXYmmc[5][0]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[5][0]-dXeYeZe[0][0]/dXeYeZe[0][2]*dXeYeZe[5][2]);
+  //dPXmmc/dZ0    = f/Ze * dXe/dZ0 - f*Xe/Ze^2 * dZe/dZ0
+              dPXYmmc[6][0]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[6][0]-dXeYeZe[0][0]/dXeYeZe[0][2]*dXeYeZe[6][2]); //bad?
+  //dPXmmc/df     = Xe/Ze
+              dPXYmmc[7][0]=dXeYeZe[0][0]/dXeYeZe[0][2];
+  //dPXmmc/ddist =  - f*Xe/Ze^2
+              dPXYmmc[8][0]=-this.focalLength*dXeYeZe[0][0]/(dXeYeZe[0][2]*dXeYeZe[0][2]);
+  //(5) PYmmc =f/Ze*  Ye  // mm, up from the lens axis intersection with the sensor
+  //dPYmmc/dphi   = f/Ze * dYe/dphi - f*Ye/Ze^2 * dZe/dphi
+              dPXYmmc[1][1]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[1][1]-dXeYeZe[0][1]/dXeYeZe[0][2]*dXeYeZe[1][2]);
+  //dPYmmc/dtheta = f/Ze * dYe/dtheta - f*Ye/Ze^2 * dZe/dtheta
+              dPXYmmc[2][1]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[2][1]-dXeYeZe[0][1]/dXeYeZe[0][2]*dXeYeZe[2][2]);
+  //dPYmmc/dpsi   = f/Ze * dYe/dpsi - f*Ye/Ze^2 * dZe/dpsi
+              dPXYmmc[3][1]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[3][1]-dXeYeZe[0][1]/dXeYeZe[0][2]*dXeYeZe[3][2]);
+  //dPYmmc/dX0    = f/Ze * dYe/dX0 - f*Ye/Ze^2 * dZe/dX0
+              dPXYmmc[4][1]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[4][1]-dXeYeZe[0][1]/dXeYeZe[0][2]*dXeYeZe[4][2]);
+  //dPYmmc/dY0    = f/Ze * dYe/dY0 - f*Ye/Ze^2 * dZe/dY0
+              dPXYmmc[5][1]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[5][1]-dXeYeZe[0][1]/dXeYeZe[0][2]*dXeYeZe[5][2]);
+  //dPYmmc/dZ0    = f/Ze * dYe/dZ0 - f*Ye/Ze^2 * dZe/dZ0
+              dPXYmmc[6][1]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[6][1]-dXeYeZe[0][1]/dXeYeZe[0][2]*dXeYeZe[6][2]); // good?
+  //dPYmmc/df     = Ye/Ze
+              dPXYmmc[7][1]=dXeYeZe[0][1]/dXeYeZe[0][2];
+  //dPYmmc/ddist =  - f*Ye/Ze^2
+              dPXYmmc[8][1]=-this.focalLength*dXeYeZe[0][1]/(dXeYeZe[0][2]*dXeYeZe[0][2]);
+        	}
+        	// conversion coefficient from relative (to distortionRadius) to pixels
+        	// negate for y!
+        	double rel_to_pix=this.distortionRadius*1000.0/this.pixelSize;
+        	//TODO:  seems that rr[i] can be just a single running variable, not an array
+        	for (int i=0;i<r_xyod.length;i++){
+        		double x=xmmc-r_xyod[i][0]; // relative X-shift of this term center
+        		double y=ymmc-r_xyod[i][1]; // relative X-shift of this term center
+        		double x2=x*x;   // relative squared X-shift from this term center
+        		double y2=y*y;   // relative squared Y-shift from this term center
+        		double r2=x2+y2; // relative squared distance from this term center
+        		// effective distance from this term center corrected for elongation
+        		double rr=Math.sqrt(r2+ r_xyod[i][2]*(y2-x2)+ 2.0*r_xyod[i][3]*x*y );
+                if (rr<0.00000001*this.distortionRadius) rr=0.00000001*this.distortionRadius; // avoid 1/0.0 -// Added 3 zeros (old comment)
+        		double rr_pow_i=ipow(rr,i);
+//        		double ki=a[i]*(Math.pow(rr,i+1)-1.0);
+//        		double ki=a[i]*(ipow(rr,i+1)-1.0);
+        		double ki=a[i]*(rr_pow_i*rr-1.0); // scaling of distorted distance from this term's center (does not include pinhole center shift itself)
+        		deltaX+=x*ki; // relative distorted distance from the center
+        		deltaY+=y*ki;
+//        		if ((debugLevel>2) && ((r_xyod[i][0]!=0.0) || (r_xyod[i][0]!=0.0))){
+//        			System.out.println ("i="+i+" r_xyod[i][0]="+r_xyod[i][0]+" r_xyod[i][1]="+r_xyod[i][1]+" a[0]="+a[0]+" a[1]="+a[1]+" a[2]="+a[2]+" a[3]="+a[3]);
+//        		}
+        		if (calculateAll) {
+        			double csi=rel_to_pix*a[i]*(i+1)*rr_pow_i;
+//        		double dx2_dxmmc=2*x, dy2_dymmc=2*y, dr2_dxmmc=2*x, dr2_dymmc=2*y;
+// double drr_dxmmc=0.5/rr*(dr2_dxmmc+ r_xyod[i][2]*(-dx2_dxmmc)+2*r_xyod[i][3]*y)=0.5/rr*(2*x - 2*x*r_xyod[i][2]+2*r_xyod[i][3]*y)=
+//                  =  (x*(1.0-r_xyod[i][2])+y*r_xyod[i][3])/rr    		
+// double drr_dymmc=  (y*(1.0+r_xyod[i][2])+x*r_xyod[i][3])/rr
+// double ki=a[i]*(rr^(i+1)-1.0);
+// double dki_dxmmc=a[i]*(i+1)*rr^i*(x*(1.0-r_xyod[i][2])+y*r_xyod[i][3])/rr        		
+// double dki_dymmc=a[i]*(i+1)*rr^i*(y*(1.0+r_xyod[i][2])+x*r_xyod[i][3])/rr        		
+// double dki_dxmmc=a[i]*(i+1)*rr_pow_i*(x*(1.0-r_xyod[i][2])+y*r_xyod[i][3])/rr
+// double dki_dymmc=a[i]*(i+1)*rr_pow_i*(y*(1.0+r_xyod[i][2])+x*r_xyod[i][3])/rr
+        			double ai_iplus1_rr_pow_i= a[i]*(i+1)*rr_pow_i;       		
+        			double dki_dxmmc=          ai_iplus1_rr_pow_i*(x*(1.0-r_xyod[i][2])+y*r_xyod[i][3])/rr;
+        			double dki_dymmc=          ai_iplus1_rr_pow_i*(y*(1.0+r_xyod[i][2])+x*r_xyod[i][3])/rr;
+                    // the following 4 shifts are "extra", on top of non-distorted (pinhole) - pinhole should be added to the per-term sum
+        			double dDeltaXi_dxmmc = ki+x*dki_dxmmc; // here dDelta*_d*mmc are relative (both I/O are fractions of distortionRadius)
+        			double dDeltaXi_dymmc =    x*dki_dymmc;
+        			double dDeltaYi_dxmmc =    y*dki_dxmmc;
+        			double dDeltaYi_dymmc = ki+y*dki_dymmc;
+        			dDeltaX_dxmmc += dDeltaXi_dxmmc; // here dDelta*_d*mmc are relative (both I/O are fractions of distortionRadius)
+        			dDeltaX_dymmc += dDeltaXi_dymmc;
+        			dDeltaY_dxmmc += dDeltaYi_dxmmc;
+        			dDeltaY_dymmc += dDeltaYi_dymmc;
+// dependence on eccentricity
+// dDeltaX_d_r_xyod0 =  dDeltaXi_dxmmc * dxmmc_d_r_xyod0 = -dDeltaXi_dxmmc
+// dDeltaY_d_r_xyod0 =  dDeltaYi_dxmmc * dxmmc_d_r_xyod0 = -dDeltaYi_dxmmc
+// dDeltaX_d_r_xyod1 =  dDeltaXi_dymmc * dymmc_d_r_xyod1 = -dDeltaXi_dymmc
+// dDeltaY_d_r_xyod1 =  dDeltaYi_dymmc * dymmc_d_r_xyod1 = -dDeltaYi_dymmc
+        			int index=numRadialDerivatives-2+4*i;
+        			if (i>0){ // eccentricity is not applicabe to the first (C) term
+        				partDeriv[index  ][0]= -rel_to_pix*(dDeltaXi_dxmmc-0.0); // dPx_dr_xyod0
+        				partDeriv[index  ][1]=  rel_to_pix* dDeltaYi_dxmmc; // dPy_dr_xyod0
+        				partDeriv[index+1][0]= -rel_to_pix* dDeltaXi_dymmc; // dPx_dr_xyod1
+        				partDeriv[index+1][1]=  rel_to_pix*(dDeltaYi_dymmc-0.0); // dPy_dr_xyod1
+        			}
+        			// d/dai
+        			// ki=a[i]*(rr_pow_i*rr-1.0);
+        			// double dki_dai=(rr_pow_i*rr-1.0);
+        			// double dpx_dai= rel_to_pix*x*(dki_dai)=rel_to_pix*x*(rr_pow_i*rr-1.0)
+        			// double dpy_dai=-rel_to_pix*y*(dki_dai)=rel_to_pix*y*(rr_pow_i*rr-1.0)
+        			//        	final int distortionCIndex=15; // a8->9, a7->10, a6->11, a5->12, a->13, b->14, c->15
+        			index= distortionCIndex-i; // reverse order, // a8->9, a7->10, a6->11, a5->12, a->13, b->14, c->15
+    				partDeriv[index][0]= rel_to_pix*x*(rr_pow_i*rr-1.0); // OK
+    				partDeriv[index][1]=-rel_to_pix*y*(rr_pow_i*rr-1.0); // OK
+        			// d/dr_xyod[0] (x shift of the center
+        			// rr=Math.sqrt(r2+ r_xyod[i][2]*(y2-x2)+ 2.0*r_xyod[i][3]*x*y );
+        			// ki=a[i]*(rr_pow_i*rr-1.0);
+        			// dx_dr_xyod0=-1.0
+        			// dy_dr_xyod1=-1.0
+        			// dx2_dr_xyod0=-2*x
+        			// dy2_dr_xyod1=-2*y
+        			// dr2_dr_xyod0=-2*x
+        			// dr2_dr_xyod1=-2*y
+        			// dxy_dr_xyod0=-y
+        			// dxy_dr_xyod1=-x
+        			// dri_dr_xyod[0]=0.5*(dr2_dr_xyod0 -r_xyod[i][2]*dx2_dr_xyod0 + 2.0*r_xyod[i][3]*dxy_dr_xyod0)/rr=
+        			//                0.5*(-2*x -r_xyod[i][2]*(-2*x) + 2.0*r_xyod[i][3]*(-y))/rr=
+        			//                (-x +r_xyod[i][2]*x -r_xyod[i][3]*y)/rr=
+        			//                (x*(r_xyod[i][2]-1.0) -r_xyod[i][3]*y)/rr
+//        			double dri_dr_xyod0 = (x*(r_xyod[i][2]-1.0) -r_xyod[i][3]*y)/rr;
+        			// dri_dr_xyod[1]=0.5*(dr2_dr_xyod1 -r_xyod[i][2]*dx2_dr_xyod1 + 2.0*r_xyod[i][3]*dxy_dr_xyod1)/rr=
+        			//                0.5*(-2*y +r_xyod[i][2]*(-2*y) + 2.0*r_xyod[i][3]*(-x))/rr=
+        			//                (-y -r_xyod[i][2]*y -r_xyod[i][3]*x)/rr=
+        			//                (-y*(r_xyod[i][2]+1.0) -r_xyod[i][3]*x)/rr
+//        			double dri_dr_xyod1 = (-y*(r_xyod[i][2]+1.0) -r_xyod[i][3]*x)/rr;
+        			// dri_dr_xyod[2]=0.5*(y2-x2)/rr
+        			double dri_dr_xyod2 = 0.5*(y2-x2)/rr;
+        			// dri_dr_xyod[3]=(y*x)/rr
+        			double dri_dr_xyod3 = (y*x)/rr;
+        			//--------------------
+        			// double ki=a[i]*(rr^(i+1)-1.0);
+        			// double ki=a[i]*(rr_pow_i*rr-1.0);
+        			// deltaX+=x*ki;
+        			// deltaY+=y*ki;
+        			// dki_dri=a[i]*(i+1)*rr^i = a[i]*(i+1)*rr_pow_i
+        			// dDeltaX_dri=x*a[i]*(i+1)*rr_pow_i
+        			// dDeltaY_dri=y*a[i]*(i+1)*rr_pow_i
+        			// dPx_dri= rel_to_pix*x*a[i]*(i+1)*rr_pow_i =  csi*x 
+        			// dPy_dri=-rel_to_pix*y*a[i]*(i+1)*rr_pow_i = -csi*y
+        			// dPx_dr_xyod0= dPx_dri*dri_dr_xyod0= csi*x*dri_dr_xyod0;
+        			// dPx_dr_xyod1= dPx_dri*dri_dr_xyod1= csi*x*dri_dr_xyod1;
+        			// dPx_dr_xyod2= dPx_dri*dri_dr_xyod2= csi*x*dri_dr_xyod2;
+        			// dPx_dr_xyod3= dPx_dri*dri_dr_xyod3= csi*x*dri_dr_xyod3;
+        			// dPy_dr_xyod0= dPy_dri*dri_dr_xyod0=-csi*y*dri_dr_xyod0;
+        			// dPy_dr_xyod1= dPy_dri*dri_dr_xyod1=-csi*y*dri_dr_xyod1;
+        			// dPy_dr_xyod2= dPy_dri*dri_dr_xyod2=-csi*y*dri_dr_xyod2;
+        			// dPy_dr_xyod3= dPy_dri*dri_dr_xyod3=-csi*y*dri_dr_xyod3;
+        			index=numRadialDerivatives-2+4*i;
+        			/*
+        			if (i>0){ // eccentricity is not applicabe to the first (C) term
+        				partDeriv[index  ][0]= csi*x*dri_dr_xyod0; // dPx_dr_xyod0
+        				partDeriv[index  ][1]=-csi*y*dri_dr_xyod0; // dPy_dr_xyod0
+        				partDeriv[index+1][0]= csi*x*dri_dr_xyod1; // dPx_dr_xyod1
+        				partDeriv[index+1][1]=-csi*y*dri_dr_xyod1; // dPy_dr_xyod1
+        			}
+        			*/
+    				partDeriv[index+2][0]= csi*x*dri_dr_xyod2; // dPx_dr_xyod2
+    				partDeriv[index+2][1]=-csi*y*dri_dr_xyod2; // dPy_dr_xyod2
+    				partDeriv[index+3][0]= csi*x*dri_dr_xyod3; // dPx_dr_xyod3
+    				partDeriv[index+3][1]=-csi*y*dri_dr_xyod3; // dPy_dr_xyod3
+        		}        		
+        	}
+        	double [] xyDist={PXYmmc[0]+this.distortionRadius*deltaX,PXYmmc[1]+this.distortionRadius*deltaY};
+        	// convert to sensor pixels coordinates
        	partDeriv[0][0]=  1000.0/this.pixelSize*xyDist[0] + this.px0;
        	partDeriv[0][1]= -1000.0/this.pixelSize*xyDist[1] + this.py0;
        	if (!calculateAll) {
        		// TODO: Looking away from the target, trying only with no dervatives. Do the same for derivatives too?
            	if (XeYeZe[2]<0.0) {
@@ -643,259 +1198,63 @@ dPXmmc/dphi=
            	}
        		return partDeriv;
        	}
+        	// correct parameter derivatives to cumulative version
+        	if (this.cummulativeCorrection){
+            	for (int i=r_xyod.length-2;i>=0;i--){
+        			int index=numRadialDerivatives-2+4*i;
+        			if (i>0){ // eccentricity is not applicabe to the first (C) term
+        				partDeriv[index  ][0]+=partDeriv[index+4][0]; // oob=36
+        				partDeriv[index  ][1]+=partDeriv[index+4][1];
+        				partDeriv[index+1][0]+=partDeriv[index+5][0];
+        				partDeriv[index+1][1]+=partDeriv[index+5][1];
+        			}        			
+    				partDeriv[index+2][0]+=partDeriv[index+6][0];
+    				partDeriv[index+2][1]+=partDeriv[index+6][1];
+    				partDeriv[index+3][0]+=partDeriv[index+7][0];
+    				partDeriv[index+3][1]+=partDeriv[index+7][1];
+            	}
+        	}
-            double [][] dXeYeZe=new double[9][3]; //[14];
+// convert    dDelta*_d*mmc from relative/relative to pix/mm (invert pixel Y direction)
-            dXeYeZe[0][0]=XeYeZe[0];
+// added 1.0 to account for non-distorted (pinhole) shift        	
-            dXeYeZe[0][1]=XeYeZe[1];
+        	double dPx_dPinholeX= (1.0+dDeltaX_dxmmc)*1000.0/this.pixelSize;
-            dXeYeZe[0][2]=XeYeZe[2];
+        	double dPx_dPinholeY=       dDeltaX_dymmc*1000.0/this.pixelSize;
-// /dphi            
+        	double dPy_dPinholeX=      -dDeltaY_dxmmc*1000.0/this.pixelSize;
-            dXeYeZe[1][0]=(-cPS*sPH + sPS*sTH*cPH)*XYZ[0]                    +(-cPS*cPH-sPS*sTH*sPH)*XYZ[2];
+        	double dPy_dPinholeY=-(1.0+dDeltaY_dymmc)*1000.0/this.pixelSize;
-            dXeYeZe[1][1]=(-sPS*sPH-cPS*sTH*cPH)  *XYZ[0]                    +(-sPS*cPH+cPS*sTH*sPH)*XYZ[2];
+        	if (this.debugLevel>2){
-            dXeYeZe[1][2]=(cTH*cPH)*XYZ[0]                                     -cTH*sPH* XYZ[2];
+        		System.out.println(" deltaX="+deltaX+" deltaY="+deltaY+" xyDist[0]="+xyDist[0]+" xyDist[1]="+xyDist[1]);
-// /dtheta
+        		System.out.println(" PXYmmc[0]="+PXYmmc[0]+" PXYmmc[1]="+PXYmmc[1]+" xmmc="+xmmc+" ymmc"+ymmc);
-            dXeYeZe[2][0]=(sPS*cTH*sPH)*XYZ[0]              -sPS*sTH*XYZ[1]  +(sPS*cTH*cPH)*XYZ[2];
+        		System.out.println(" dDeltaX_dxmmc="+dDeltaX_dxmmc+" dDeltaX_dymmc="+dDeltaX_dymmc+" dDeltaY_dxmmc="+dDeltaY_dxmmc+" dDeltaY_dymmc"+dDeltaY_dymmc);
-            dXeYeZe[2][1]=(-cPS*cTH*sPH)*XYZ[0]             +cPS*sTH*XYZ[1]  +(-cPS*cTH*cPH)*XYZ[2];
+        		System.out.println(" dPx_dPinholeX="+dPx_dPinholeX+" dPx_dPinholeY="+dPx_dPinholeY+" dPy_dPinholeX="+dPy_dPinholeX+" dPy_dPinholeY"+dPy_dPinholeY);
-            dXeYeZe[2][2]=(-sTH*sPH)*XYZ[0]                 -cTH*XYZ[1]      -sTH*cPH* XYZ[2];
+        	}
-// /dpsi            
-            dXeYeZe[3][0]=(-sPS*cPH+cPS*sTH*sPH)*XYZ[0]     +cPS*cTH*XYZ[1]  +(sPS*sPH+cPS*sTH*cPH)*XYZ[2];
-            dXeYeZe[3][1]=(cPS*cPH+ sPS*sTH*sPH)*XYZ[0]     +sPS*cTH*XYZ[1]  +(-cPS*sPH+sPS*sTH*cPH)*XYZ[2];
-            dXeYeZe[3][2]=0.0;
-// /dX0
-//          dXeYeZe[4][0]=-cPS*cPH+sPS*sTH*sPH; // bad?
-            dXeYeZe[4][0]=-cPS*cPH-sPS*sTH*sPH; // bad?
-            dXeYeZe[4][1]=-sPS*cPH+cPS*sTH*sPH;
-            dXeYeZe[4][2]=-cTH*sPH;
-// /dY0
-//            dXeYeZe[5][0]=-sPS*cTH;
-//            dXeYeZe[5][1]= cPS*cTH;
-//            dXeYeZe[5][2]= sTH;
-            dXeYeZe[5][0]=+sPS*cTH;
-            dXeYeZe[5][1]=-cPS*cTH;
-            dXeYeZe[5][2]=-sTH;
-// /dZ0
-//          dXeYeZe[6][0]= cPS*sPH+sPS*sTH*cPH; //bad?
-            dXeYeZe[6][0]= cPS*sPH-sPS*sTH*cPH; //bad?
-            dXeYeZe[6][1]= sPS*sPH+cPS*sTH*cPH;
-            dXeYeZe[6][2]=-cTH*cPH;
-// /df
-            dXeYeZe[7][0]=0.0;
-            dXeYeZe[7][1]=0.0;
-            dXeYeZe[7][2]=0.0;
-// /ddist
-            dXeYeZe[8][0]=0.0;
-            dXeYeZe[8][1]=0.0;
-            dXeYeZe[8][2]=1.0;
-            double [][] dPXYmmc=new double[9][2]; //[14];
-            dPXYmmc[0][0]=PXYmmc[0];
-            dPXYmmc[0][1]=PXYmmc[1];
-//(4) PXmmc =f/Ze*  Xe  // mm, left from the lens axis intersection with the sensor
-//dPXmmc/dphi   = f/Ze * dXe/dphi - f*Xe/Ze^2 * dZe/dphi
-            dPXYmmc[1][0]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[1][0]-dXeYeZe[0][0]/dXeYeZe[0][2]*dXeYeZe[1][2]);
-//dPXmmc/dtheta = f/Ze * dXe/dtheta - f*Xe/Ze^2 * dZe/dtheta
-            dPXYmmc[2][0]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[2][0]-dXeYeZe[0][0]/dXeYeZe[0][2]*dXeYeZe[2][2]);
-//dPXmmc/dpsi   = f/Ze * dXe/dpsi - f*Xe/Ze^2 * dZe/dpsi
-            dPXYmmc[3][0]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[3][0]-dXeYeZe[0][0]/dXeYeZe[0][2]*dXeYeZe[3][2]);
-//dPXmmc/dX0    = f/Ze * dXe/dX0 - f*Xe/Ze^2 * dZe/dX0
-            dPXYmmc[4][0]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[4][0]-dXeYeZe[0][0]/dXeYeZe[0][2]*dXeYeZe[4][2]);
-//dPXmmc/dY0    = f/Ze * dXe/dY0 - f*Xe/Ze^2 * dZe/dY0
-            dPXYmmc[5][0]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[5][0]-dXeYeZe[0][0]/dXeYeZe[0][2]*dXeYeZe[5][2]);
-//dPXmmc/dZ0    = f/Ze * dXe/dZ0 - f*Xe/Ze^2 * dZe/dZ0
-            dPXYmmc[6][0]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[6][0]-dXeYeZe[0][0]/dXeYeZe[0][2]*dXeYeZe[6][2]); //bad?
-//dPXmmc/df     = Xe/Ze
-            dPXYmmc[7][0]=dXeYeZe[0][0]/dXeYeZe[0][2];
-//dPXmmc/ddist =  - f*Xe/Ze^2
-            dPXYmmc[8][0]=-this.focalLength*dXeYeZe[0][0]/(dXeYeZe[0][2]*dXeYeZe[0][2]);
-//(5) PYmmc =f/Ze*  Ye  // mm, up from the lens axis intersection with the sensor
-//dPYmmc/dphi   = f/Ze * dYe/dphi - f*Ye/Ze^2 * dZe/dphi
-            dPXYmmc[1][1]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[1][1]-dXeYeZe[0][1]/dXeYeZe[0][2]*dXeYeZe[1][2]);
-//dPYmmc/dtheta = f/Ze * dYe/dtheta - f*Ye/Ze^2 * dZe/dtheta
-            dPXYmmc[2][1]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[2][1]-dXeYeZe[0][1]/dXeYeZe[0][2]*dXeYeZe[2][2]);
-//dPYmmc/dpsi   = f/Ze * dYe/dpsi - f*Ye/Ze^2 * dZe/dpsi
-            dPXYmmc[3][1]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[3][1]-dXeYeZe[0][1]/dXeYeZe[0][2]*dXeYeZe[3][2]);
-//dPYmmc/dX0    = f/Ze * dYe/dX0 - f*Ye/Ze^2 * dZe/dX0
-            dPXYmmc[4][1]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[4][1]-dXeYeZe[0][1]/dXeYeZe[0][2]*dXeYeZe[4][2]);
-//dPYmmc/dY0    = f/Ze * dYe/dY0 - f*Ye/Ze^2 * dZe/dY0
-            dPXYmmc[5][1]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[5][1]-dXeYeZe[0][1]/dXeYeZe[0][2]*dXeYeZe[5][2]);
-//dPYmmc/dZ0    = f/Ze * dYe/dZ0 - f*Ye/Ze^2 * dZe/dZ0
-            dPXYmmc[6][1]=this.focalLength/dXeYeZe[0][2]*(dXeYeZe[6][1]-dXeYeZe[0][1]/dXeYeZe[0][2]*dXeYeZe[6][2]); // good?
-//dPYmmc/df     = Ye/Ze
-            dPXYmmc[7][1]=dXeYeZe[0][1]/dXeYeZe[0][2];
-//dPYmmc/ddist =  - f*Ye/Ze^2
-            dPXYmmc[8][1]=-this.focalLength*dXeYeZe[0][1]/(dXeYeZe[0][2]*dXeYeZe[0][2]);
-            double[] dr=new double [9];
-//(6) r=sqrt(PXmmc^2+PYmmc^2) // distance from the image point to the lens axis intersection with the sensor (pinhole model)
-            dr[0]=r;
-            // Added 3 zeros
-            if (dr[0]<0.00000001*this.distortionRadius) dr[0]=0.00000001*this.distortionRadius; // avoid 1/0.0
-// dr/dphi   = (PXmmc*dPXmmc/dphi+PYmmc*dPYmmc/dphi)/r
-            dr[1]=(PXYmmc[0]*dPXYmmc[1][0]+PXYmmc[1]*dPXYmmc[1][1])/dr[0];
-// dr/dtheta = (PXmmc*dPXmmc/dtheta+PYmmc*dPYmmc/dtheta)/r
-            dr[2]=(PXYmmc[0]*dPXYmmc[2][0]+PXYmmc[1]*dPXYmmc[2][1])/dr[0];
-// dr/dpsi   = (PXmmc*dPXmmc/dpsi+PYmmc*dPYmmc/dpsi)/r
-            dr[3]=(PXYmmc[0]*dPXYmmc[3][0]+PXYmmc[1]*dPXYmmc[3][1])/dr[0];
-// dr/dX0    = (PXmmc*dPXmmc/dX0+PYmmc*dPYmmc/dX0)/r
-            dr[4]=(PXYmmc[0]*dPXYmmc[4][0]+PXYmmc[1]*dPXYmmc[4][1])/dr[0];
-// dr/dY0    = (PXmmc*dPXmmc/dY0+PYmmc*dPYmmc/dY0)/r
-            dr[5]=(PXYmmc[0]*dPXYmmc[5][0]+PXYmmc[1]*dPXYmmc[5][1])/dr[0];
-// dr/dZ0    = (PXmmc*dPXmmc/dZ0+PYmmc*dPYmmc/dZ0)/r
-            dr[6]=(PXYmmc[0]*dPXYmmc[6][0]+PXYmmc[1]*dPXYmmc[6][1])/dr[0];
-// dr/df     = (PXmmc*dPXmmc/df+PYmmc*dPYmmc/df)/r
-            dr[7]=(PXYmmc[0]*dPXYmmc[7][0]+PXYmmc[1]*dPXYmmc[7][1])/dr[0];
-// dr/ddist =  (PXmmc*dPXmmc/ddist+PYmmc*dPYmmc/ddist)/r
-            dr[8]=(PXYmmc[0]*dPXYmmc[8][0]+PXYmmc[1]*dPXYmmc[8][1])/dr[0];
-//            double[] dkD=new double [12];
-            double[] dkD=new double [16];
-// (7) kD=(Da*(r/r0)^3+Db*(r/r0)^2+Dc*(r/r0)^1+(1-Da-Db-Dc)) correction to the actual distance from the image point to the lens axis due to distortion
-// (7) kD=(Da5*(r/r0)^4+(Da*(r/r0)^3+Db*(r/r0)^2+Dc*(r/r0)^1+(1-Da-Db-Dc-Da5)) correction to the actual distance from the image point to the lens axis due to distortion
-            dkD[0]=kD;
-// dkD/dr=  Da/r0^3 * 3*r^2 + Db/r0^2*2*r + Dc/r0
-// dkD/dr=  Da5/r0^4 * 4*r^3 + Da/r0^3 * 3*r^2 + Db/r0^2*2*r + Dc/r0
-// dkD/dr=  1/r0*(3*Da*(r/r0)^2 + 2*Db*(r/r0) + Dc)
-// dkD/dr=  1/r0*(4*Da5*(r/r0)^3 + 3*Da*(r/r0)^2 + 2*Db*(r/r0) + Dc)            
-            double dkDdr=1.0/this.distortionRadius*((((((8*this.distortionA8*rr+6*this.distortionA7)*rr+5*this.distortionA6)*rr+4*this.distortionA5)*rr+3*this.distortionA)*rr+2*this.distortionB)*rr + this.distortionC);
-// dkD/dphi   = dkD/dr * dr/dphi
-            dkD[1]=dkDdr*dr[1];
-// dkD/dtheta = dkD/dr * dr/dtheta
-            dkD[2]=dkDdr*dr[2];
-// dkD/dpsi   = dkD/dr * dr/dpsi
-            dkD[3]=dkDdr*dr[3];
-// dkD/dX0    = dkD/dr * dr/dX0
-            dkD[4]=dkDdr*dr[4];
-// dkD/dY0    = dkD/dr * dr/dY0
-            dkD[5]=dkDdr*dr[5];
-// dkD/dZ0    = dkD/dr * dr/dZ0
-            dkD[6]=dkDdr*dr[6];
-// dkD/df     = dkD/dr * dr/df
-            dkD[7]=dkDdr*dr[7];
-// dkD/ddist  = dkD/dr * dr/ddist
-            dkD[8]=dkDdr*dr[8];
-// dkD/dDa8   = (r/r0)^7 - 1
-            dkD[ 9]=rr*rr*rr*rr*rr*rr*rr-1.0;
-// dkD/dDa7   = (r/r0)^6 - 1
-            dkD[10]=rr*rr*rr*rr*rr*rr-1.0;
-// dkD/dDa6   = (r/r0)^5 - 1
-            dkD[11]=rr*rr*rr*rr*rr-1.0;
-// dkD/dDa5   = (r/r0)^4 - 1
-            dkD[12]=rr*rr*rr*rr-1.0;
-// dkD/dDa    = (r/r0)^3 - 1
-            dkD[13]=rr*rr*rr-1.0;
-// dkD/dDb    = (r/r0)^2 - 1
-            dkD[14]=rr*rr-1.0;
-// dkD/dDc    = (r/r0)   - 1
-            dkD[15]=rr-1.0;
-//            double[][] dxyDist=new double [12][2];
-            double[][] dxyDist=new double [16][2];
-// (8) xDist = kD *  PXmmc // horisontal distance (mm) from the lens axis on the sensor to the image point, mm (positive - right)
-// (9) yDist = kD *  PYmmc // vertical distance (mm) from the lens axis on the sensor to the image point, mm (positive - up)
-            dxyDist[0][0]=xyDist[0];
-            dxyDist[0][1]=xyDist[1];
-// dxDist/dphi   = dkD/dphi*PXmmc   + kD*dPXmmc/dphi
-// dyDist/dphi   = dkD/dphi*PYmmc   + kD*dPYmmc/dphi
-            dxyDist[ 1][0]=dkD[ 1]*dPXYmmc[0][0]+dkD[0]*dPXYmmc[ 1][0];
-            dxyDist[ 1][1]=dkD[ 1]*dPXYmmc[0][1]+dkD[0]*dPXYmmc[ 1][1];
-// dxDist/dtheta = dkD/dtheta*PXmmc + kD*dPXmmc/dtheta
-            dxyDist[ 2][0]=dkD[ 2]*dPXYmmc[0][0]+dkD[0]*dPXYmmc[ 2][0];
-            dxyDist[ 2][1]=dkD[ 2]*dPXYmmc[0][1]+dkD[0]*dPXYmmc[ 2][1];
-// dxDist/dpsi   = dkD/dpsi*PXmmc   + kD*dPXmmc/dpsi
-            dxyDist[ 3][0]=dkD[ 3]*dPXYmmc[0][0]+dkD[0]*dPXYmmc[ 3][0];
-            dxyDist[ 3][1]=dkD[ 3]*dPXYmmc[0][1]+dkD[0]*dPXYmmc[ 3][1];
-// dxDist/dX0    = dkD/dX0*PXmmc    + kD*dPXmmc/dX0
-            dxyDist[ 4][0]=dkD[ 4]*dPXYmmc[0][0]+dkD[0]*dPXYmmc[ 4][0]; // large error
-            dxyDist[ 4][1]=dkD[ 4]*dPXYmmc[0][1]+dkD[0]*dPXYmmc[ 4][1];
-// dxDist/dY0    = dkD/dY0*PXmmc    + kD*dPXmmc/dY0
-            dxyDist[ 5][0]=dkD[ 5]*dPXYmmc[0][0]+dkD[0]*dPXYmmc[ 5][0];
-            dxyDist[ 5][1]=dkD[ 5]*dPXYmmc[0][1]+dkD[0]*dPXYmmc[ 5][1];
-// dxDist/dZ0    = dkD/dZ0*PXmmc    + kD*dPXmmc/dZ0
-            dxyDist[ 6][0]=dkD[ 6]*dPXYmmc[0][0]+dkD[0]*dPXYmmc[ 6][0]; // large error
-            dxyDist[ 6][1]=dkD[ 6]*dPXYmmc[0][1]+dkD[0]*dPXYmmc[ 6][1];
-// dxDist/df     = dkD/df*PXmmc     + kD*dPXmmc/df
-            dxyDist[ 7][0]=dkD[ 7]*dPXYmmc[0][0]+dkD[0]*dPXYmmc[ 7][0];
-            dxyDist[ 7][1]=dkD[ 7]*dPXYmmc[0][1]+dkD[0]*dPXYmmc[ 7][1];
-// dxDist/ddist  = dkD/ddist*PXmmc  + kD*dPXmmc/ddist
-            dxyDist[ 8][0]=dkD[ 8]*dPXYmmc[0][0]+dkD[0]*dPXYmmc[ 8][0];
-            dxyDist[ 8][1]=dkD[ 8]*dPXYmmc[0][1]+dkD[0]*dPXYmmc[ 8][1];
-// dxDist/dDa5    = dkD/dDa8*PXmmc
-            dxyDist[ 9][0]=dkD[ 9]*dPXYmmc[0][0];
-            dxyDist[ 9][1]=dkD[ 9]*dPXYmmc[0][1];
-// dxDist/dDa5    = dkD/dDa7*PXmmc
-            dxyDist[10][0]=dkD[10]*dPXYmmc[0][0];
-            dxyDist[10][1]=dkD[10]*dPXYmmc[0][1];
-// dxDist/dDa5    = dkD/dD6a*PXmmc
-            dxyDist[11][0]=dkD[11]*dPXYmmc[0][0];
-            dxyDist[11][1]=dkD[11]*dPXYmmc[0][1];
-// dxDist/dDa5    = dkD/dDa5*PXmmc`
-            dxyDist[12][0]=dkD[12]*dPXYmmc[0][0];
-            dxyDist[12][1]=dkD[12]*dPXYmmc[0][1];
-// dxDist/dDa    = dkD/dDa*PXmmc
-            dxyDist[13][0]=dkD[13]*dPXYmmc[0][0];
-            dxyDist[13][1]=dkD[13]*dPXYmmc[0][1];
-// dxDist/dDb    = dkD/dDb*PXmmc
-            dxyDist[14][0]=dkD[14]*dPXYmmc[0][0];
-            dxyDist[14][1]=dkD[14]*dPXYmmc[0][1];
-// dxDist/dDc    = dkD/dDc*PXmmc
-            dxyDist[15][0]=dkD[15]*dPXYmmc[0][0];
-            dxyDist[15][1]=dkD[15]*dPXYmmc[0][1];
            double K=Math.PI/180; // multiply all derivatives my angles 
-// (10) PX = 1000/Psz*( xDist) + PX0 // horizontal pixel of the image (positive - right)
 // dPX/dphi   =  1000/Psz* dxDist/dphi
-        	partDeriv[ 1][0]=  K*1000.0/this.pixelSize*dxyDist[ 1][0];
+        	partDeriv[ 1][0]=  K*(dPx_dPinholeX*dPXYmmc[1][0]+dPx_dPinholeY*dPXYmmc[1][1]);
-        	partDeriv[ 1][1]= -K*1000.0/this.pixelSize*dxyDist[ 1][1];
+        	partDeriv[ 1][1]=  K*(dPy_dPinholeX*dPXYmmc[1][0]+dPy_dPinholeY*dPXYmmc[1][1]);
 // dPX/dtheta =  1000/Psz* dxDist/dtheta
-        	partDeriv[ 2][0]=  K*1000.0/this.pixelSize*dxyDist[ 2][0];
+        	partDeriv[ 2][0]=  K*(dPx_dPinholeX*dPXYmmc[2][0]+dPx_dPinholeY*dPXYmmc[2][1]);
-        	partDeriv[ 2][1]= -K*1000.0/this.pixelSize*dxyDist[ 2][1];
+        	partDeriv[ 2][1]=  K*(dPy_dPinholeX*dPXYmmc[2][0]+dPy_dPinholeY*dPXYmmc[2][1]);
 // dPX/dpsi   =  1000/Psz* dxDist/dpsi
-        	partDeriv[ 3][0]=  K*1000.0/this.pixelSize*dxyDist[ 3][0];
+        	partDeriv[ 3][0]=  K*(dPx_dPinholeX*dPXYmmc[3][0]+dPx_dPinholeY*dPXYmmc[3][1]);
-        	partDeriv[ 3][1]= -K*1000.0/this.pixelSize*dxyDist[ 3][1];
+        	partDeriv[ 3][1]=  K*(dPy_dPinholeX*dPXYmmc[3][0]+dPy_dPinholeY*dPXYmmc[3][1]);
 // dPX/dX0    =  1000/Psz* dxDist/dX0
-        	partDeriv[ 4][0]=  1000.0/this.pixelSize*dxyDist[ 4][0]; // large error
+        	partDeriv[ 4][0]=  dPx_dPinholeX*dPXYmmc[4][0]+dPx_dPinholeY*dPXYmmc[4][1];
-        	partDeriv[ 4][1]= -1000.0/this.pixelSize*dxyDist[ 4][1];
+        	partDeriv[ 4][1]=  dPy_dPinholeX*dPXYmmc[4][0]+dPy_dPinholeY*dPXYmmc[4][1];
 // dPX/dY0    =  1000/Psz* dxDist/dY0
-        	partDeriv[ 5][0]=  1000.0/this.pixelSize*dxyDist[ 5][0];
+        	partDeriv[ 5][0]=  dPx_dPinholeX*dPXYmmc[5][0]+dPx_dPinholeY*dPXYmmc[5][1];
-        	partDeriv[ 5][1]= -1000.0/this.pixelSize*dxyDist[ 5][1];
+        	partDeriv[ 5][1]=  dPy_dPinholeX*dPXYmmc[5][0]+dPy_dPinholeY*dPXYmmc[5][1];
 // dPX/dZ0    =  1000/Psz* dxDist/dZ0
-        	partDeriv[ 6][0]=  1000.0/this.pixelSize*dxyDist[ 6][0]; // large error, including DC (sig -0.8..+0.5, err -0.2..-0.1
+        	partDeriv[ 6][0]=  dPx_dPinholeX*dPXYmmc[6][0]+dPx_dPinholeY*dPXYmmc[6][1];
-        	partDeriv[ 6][1]= -1000.0/this.pixelSize*dxyDist[ 6][1];
+        	partDeriv[ 6][1]=  dPy_dPinholeX*dPXYmmc[6][0]+dPy_dPinholeY*dPXYmmc[6][1];
 // dPX/df     =  1000/Psz* dxDist/df
-        	partDeriv[ 7][0]=  1000.0/this.pixelSize*dxyDist[ 7][0];
+        	partDeriv[ 7][0]=  dPx_dPinholeX*dPXYmmc[7][0]+dPx_dPinholeY*dPXYmmc[7][1];
-        	partDeriv[ 7][1]= -1000.0/this.pixelSize*dxyDist[ 7][1];
+        	partDeriv[ 7][1]=  dPy_dPinholeX*dPXYmmc[7][0]+dPy_dPinholeY*dPXYmmc[7][1];
 // dPX/ddist  =  1000/Psz* dxDist/ddist
-        	partDeriv[ 8][0]=  1000.0/this.pixelSize*dxyDist[ 8][0];
+        	partDeriv[ 8][0]=  dPx_dPinholeX*dPXYmmc[8][0]+dPx_dPinholeY*dPXYmmc[8][1];
-        	partDeriv[ 8][1]= -1000.0/this.pixelSize*dxyDist[ 8][1];
+        	partDeriv[ 8][1]=  dPy_dPinholeX*dPXYmmc[8][0]+dPy_dPinholeY*dPXYmmc[8][1];
-// dPX/dDa8    =  1000/Psz* dxDist/dDa5
-        	partDeriv[ 9][0]=  1000.0/this.pixelSize*dxyDist[ 9][0];
-        	partDeriv[ 9][1]= -1000.0/this.pixelSize*dxyDist[ 9][1];
-// dPX/dDa7    =  1000/Psz* dxDist/dDa5
-        	partDeriv[10][0]=  1000.0/this.pixelSize*dxyDist[10][0];
-        	partDeriv[10][1]= -1000.0/this.pixelSize*dxyDist[10][1];
-// dPX/dDa6    =  1000/Psz* dxDist/dDa5
-        	partDeriv[11][0]=  1000.0/this.pixelSize*dxyDist[11][0];
-        	partDeriv[11][1]= -1000.0/this.pixelSize*dxyDist[11][1];
-// dPX/dDa5    =  1000/Psz* dxDist/dDa5
-        	partDeriv[12][0]=  1000.0/this.pixelSize*dxyDist[12][0];
-        	partDeriv[12][1]= -1000.0/this.pixelSize*dxyDist[12][1];
-// dPX/dDa    =  1000/Psz* dxDist/dDa
-        	partDeriv[13][0]=  1000.0/this.pixelSize*dxyDist[13][0];
-        	partDeriv[13][1]= -1000.0/this.pixelSize*dxyDist[13][1];
-// dPX/dDb    =  1000/Psz* dxDist/dDb
-        	partDeriv[14][0]=  1000.0/this.pixelSize*dxyDist[14][0];
-        	partDeriv[14][1]= -1000.0/this.pixelSize*dxyDist[14][1];
-// dPX/dDc    =  1000/Psz* dxDist/dDc
-        	partDeriv[15][0]=  1000.0/this.pixelSize*dxyDist[15][0];
-        	partDeriv[15][1]= -1000.0/this.pixelSize*dxyDist[15][1];
 // dPX/dPX0   =  1
 // dPY/dPX0   =  0
        	partDeriv[16][0]=  1.0;
@@ -929,8 +1288,23 @@ dPXmmc/dphi=
 			properties.setProperty(prefix+"px0",this.px0+"");
 			properties.setProperty(prefix+"py0",this.py0+"");
 			properties.setProperty(prefix+"flipVertical",this.flipVertical+"");
+			for (int i=0;i<this.r_xy.length;i++){
+				properties.setProperty(prefix+"r_xy_"+i+"_x",this.r_xy[i][0]+"");
+				properties.setProperty(prefix+"r_xy_"+i+"_y",this.r_xy[i][1]+"");
+			}
+			for (int i=0;i<this.r_od.length;i++){
+				properties.setProperty(prefix+"r_od_"+i+"_o",this.r_od[i][0]+"");
+				properties.setProperty(prefix+"r_od_"+i+"_d",this.r_od[i][1]+"");
+			}
 		}
-		public void getProperties(String prefix,Properties properties){
+    	public void setDefaultNonRadial(){
+			r_od=new double [r_od_dflt.length][2];
+			for (int i=0;i<r_od.length;i++) r_od[i]=r_od_dflt[i].clone();
+			r_xy=new double [r_xy_dflt.length][2];
+			for (int i=0;i<r_xy.length;i++) r_xy[i]=r_xy_dflt[i].clone();
+    	}
+    	public void getProperties(String prefix,Properties properties){
 			if (properties.getProperty(prefix+"focalLength")!=null)
 				this.focalLength=Double.parseDouble(properties.getProperty(prefix+"focalLength"));
 			if (properties.getProperty(prefix+"pixelSize")!=null)
@@ -971,6 +1345,16 @@ dPXmmc/dphi=
 				this.py0=Double.parseDouble(properties.getProperty(prefix+"py0"));
 			if (properties.getProperty(prefix+"flipVertical")!=null)
 				this.flipVertical=Boolean.parseBoolean(properties.getProperty(prefix+"flipVertical"));
+			setDefaultNonRadial();
+			for (int i=0;i<this.r_xy.length;i++){
+				if (properties.getProperty(prefix+"r_xy_"+i+"_x")!=null) this.r_xy[i][0]=Double.parseDouble(properties.getProperty(prefix+"r_xy_"+i+"_x"));
+				if (properties.getProperty(prefix+"r_xy_"+i+"_y")!=null) this.r_xy[i][1]=Double.parseDouble(properties.getProperty(prefix+"r_xy_"+i+"_y"));
+			}
+			for (int i=0;i<this.r_od.length;i++){
+				if (properties.getProperty(prefix+"r_od_"+i+"_o")!=null) this.r_od[i][0]=Double.parseDouble(properties.getProperty(prefix+"r_od_"+i+"_o"));
+				if (properties.getProperty(prefix+"r_od_"+i+"_d")!=null) this.r_od[i][1]=Double.parseDouble(properties.getProperty(prefix+"r_od_"+i+"_d"));
+			}
 			recalcCommons();
 		}
 		public boolean showDialog() {
@@ -995,7 +1379,41 @@ dPXmmc/dphi=
 			gd.addNumericField("Lens axis on the sensor (horizontal, from left edge)",                         this.px0, 1,6,"pixels");
 			gd.addNumericField("Lens axis on the sensor (vertical, from top edge)",                            this.py0, 1,6,"pixels");
 			gd.addCheckbox    ("Camera looks through the mirror",                                              this.flipVertical);
+			gd.addMessage("=== non-radial model parameters ===");
+			gd.addMessage("For r^2 (Distortion C):");
+			gd.addNumericField("Orthogonal elongation for r^2",   100*this.r_od[0][0], 3,7,"%");
+			gd.addNumericField("Diagonal elongation for r^2",     100*this.r_od[0][1], 3,7,"%");
+			gd.addMessage("For r^3 (Distortion B):");
+			gd.addNumericField("Distortion center shift X for r^3", 100*this.r_xy[0][0], 1,6,"%");
+			gd.addNumericField("Distortion center shift Y for r^3", 100*this.r_xy[0][1], 1,6,"%");
+			gd.addNumericField("Orthogonal elongation for r^3",  100*this.r_od[1][0], 3,7,"%");
+			gd.addNumericField("Diagonal elongation for r^3",    100*this.r_od[1][1], 3,7,"%");
+			gd.addMessage("For r^4 (Distortion A):");
+			gd.addNumericField("Distortion center shift X for r^4", 100*this.r_xy[1][0], 1,6,"%");
+			gd.addNumericField("Distortion center shift Y for r^4", 100*this.r_xy[1][1], 1,6,"%");
+			gd.addNumericField("Orthogonal elongation for r^4",  100*this.r_od[2][0], 3,7,"%");
+			gd.addNumericField("Diagonal elongation for r^4",    100*this.r_od[2][1], 3,7,"%");
+			gd.addMessage("For r^5 (Distortion A5):");
+			gd.addNumericField("Distortion center shift X for r^5", 100*this.r_xy[2][0], 1,6,"%");
+			gd.addNumericField("Distortion center shift Y for r^5", 100*this.r_xy[2][1], 1,6,"%");
+			gd.addNumericField("Orthogonal elongation for r^5",  100*this.r_od[3][0], 3,7,"%");
+			gd.addNumericField("Diagonal elongation for r^5",    100*this.r_od[3][1], 3,7,"%");
+			gd.addMessage("For r^6 (Distortion A6:");
+			gd.addNumericField("Distortion center shift X for r^6", 100*this.r_xy[3][0], 1,6,"%");
+			gd.addNumericField("Distortion center shift Y for r^6", 100*this.r_xy[3][1], 1,6,"%");
+			gd.addNumericField("Orthogonal elongation for r^6",  100*this.r_od[4][0], 3,7,"%");
+			gd.addNumericField("Diagonal elongation for r^6",    100*this.r_od[4][1], 3,7,"%");
+			gd.addMessage("For r^7 (Distortion A7):");
+			gd.addNumericField("Distortion center shift X for r^7", 100*this.r_xy[4][0], 1,6,"%");
+			gd.addNumericField("Distortion center shift Y for r^7", 100*this.r_xy[4][1], 1,6,"%");
+			gd.addNumericField("Orthogonal elongation for r^7",  100*this.r_od[5][0], 3,7,"%");
+			gd.addNumericField("Diagonal elongation for r^7",    100*this.r_od[5][1], 3,7,"%");
+			gd.addMessage("For r^8 (Distortion A8):");
+			gd.addNumericField("Distortion center shift X for r^8", 100*this.r_xy[5][0], 1,6,"%");
+			gd.addNumericField("Distortion center shift Y for r^8", 100*this.r_xy[5][1], 1,6,"%");
+			gd.addNumericField("Orthogonal elongation for r^8",  100*this.r_od[6][0], 3,7,"%");
+			gd.addNumericField("Diagonal elongation for r^8",    100*this.r_od[6][1], 3,7,"%");
+    		WindowTools.addScrollBars(gd);
 			gd.showDialog();
 			if (gd.wasCanceled()) return false;
 			this.focalLength=     gd.getNextNumber();
@@ -1017,12 +1435,39 @@ dPXmmc/dphi=
 			this.distance=        gd.getNextNumber(); 
 			this.px0=             gd.getNextNumber();
 			this.py0=             gd.getNextNumber();
-			this.flipVertical=   gd.getNextBoolean();
+			this.flipVertical=    gd.getNextBoolean();
+			this.r_od[0][0]= 0.01*gd.getNextNumber();
+			this.r_od[0][1]= 0.01*gd.getNextNumber();
+			this.r_xy[0][0]= 0.01*gd.getNextNumber();
+			this.r_xy[0][1]= 0.01*gd.getNextNumber();
+			this.r_od[1][0]= 0.01*gd.getNextNumber();
+			this.r_od[1][1]= 0.01*gd.getNextNumber();
+			this.r_xy[1][0]= 0.01*gd.getNextNumber();
+			this.r_xy[1][1]= 0.01*gd.getNextNumber();
+			this.r_od[2][0]= 0.01*gd.getNextNumber();
+			this.r_od[2][1]= 0.01*gd.getNextNumber();
+			this.r_xy[2][0]= 0.01*gd.getNextNumber();
+			this.r_xy[2][1]= 0.01*gd.getNextNumber();
+			this.r_od[3][0]= 0.01*gd.getNextNumber();
+			this.r_od[3][1]= 0.01*gd.getNextNumber();
+			this.r_xy[3][0]= 0.01*gd.getNextNumber();
+			this.r_xy[3][1]= 0.01*gd.getNextNumber();
+			this.r_od[4][0]= 0.01*gd.getNextNumber();
+			this.r_od[4][1]= 0.01*gd.getNextNumber();
+			this.r_xy[4][0]= 0.01*gd.getNextNumber();
+			this.r_xy[4][1]= 0.01*gd.getNextNumber();
+			this.r_od[5][0]= 0.01*gd.getNextNumber();
+			this.r_od[5][1]= 0.01*gd.getNextNumber();
+			this.r_xy[5][0]= 0.01*gd.getNextNumber();
+			this.r_xy[5][1]= 0.01*gd.getNextNumber();
+			this.r_od[6][0]= 0.01*gd.getNextNumber();
+			this.r_od[6][1]= 0.01*gd.getNextNumber();
 			return true;
 		}
 	    /**
 	     * Calculate/set  this.lensDistortionParameters and this.interParameterDerivatives
-     * UPDATE - Modifies lensDistortionParameters, not "this" formulti-threaded 
+     * UPDATE - Modifies lensDistortionParameters, not "this" for multi-threaded 
 	     * @param parVect 21-element vector for eyesis sub-camera, including common and individual parameters
 	     * @param mask -mask - which partial derivatives are needed to be calculated (others will be null)
 	     * @param calculateDerivatives calculate array of partial derivatives, if false - just the values
@@ -1241,9 +1686,36 @@ dPXmmc/dphi=
 			lensDistortionParameters.distortionA=parVect[24]; //subCam.distortionA;
 			lensDistortionParameters.distortionB=parVect[25]; //subCam.distortionB;
 			lensDistortionParameters.distortionC=parVect[26]; //subCam.distortionC;
-			lensDistortionParameters.recalcCommons();
+			lensDistortionParameters.r_xy=new double [6][2];
+			lensDistortionParameters.r_od=new double [7][2];
+// parVect here is o[0],d[0],{x[0],y[0],o[1],d[1]}, {} = same term 			
+			int index=27;
+			for (int i=0;i<lensDistortionParameters.r_od.length;i++){
+				if (i>0){
+					lensDistortionParameters.r_xy[i-1][0]=parVect[index++];
+					lensDistortionParameters.r_xy[i-1][1]=parVect[index++];
+				}
+				lensDistortionParameters.r_od[i][0]=parVect[index++];
+				lensDistortionParameters.r_od[i][1]=parVect[index++];
+			}
+			/*
+			for (double [] row :lensDistortionParameters.r_xy){
+				row[0]=parVect[index++];
+				row[1]=parVect[index++];
+			}
+			for (double [] row :lensDistortionParameters.r_od){
+				row[0]=parVect[index++];
+				row[1]=parVect[index++];
+			}
+			*/
+///
+//			public double [][] r_xy=null; // only 6, as for the first term delta x, delta y ==0  
+//			public double [][] r_od=null; // ortho
+			lensDistortionParameters.recalcCommons(); // uncliding lensDistortionParameters.r_xyod
 	        if (this.debugLevel>2){
@@ -1265,6 +1737,15 @@ dPXmmc/dphi=
 	        	System.out.println("lensDistortionParameters.distortionA="+IJ.d2s(lensDistortionParameters.distortionA, 5));
 	        	System.out.println("lensDistortionParameters.distortionB="+IJ.d2s(lensDistortionParameters.distortionB, 5));
 	        	System.out.println("lensDistortionParameters.distortionC="+IJ.d2s(lensDistortionParameters.distortionC, 5));
+	        	for (int i=0;i<lensDistortionParameters.r_xy.length;i++){
+	        		System.out.println("lensDistortionParameters.r_xy["+i+"][0]"+IJ.d2s(lensDistortionParameters.r_xy[i][0], 5));
+	        		System.out.println("lensDistortionParameters.r_xy["+i+"][1]"+IJ.d2s(lensDistortionParameters.r_xy[i][1], 5));
+	        	}
+	        	for (int i=0;i<lensDistortionParameters.r_od.length;i++){
+	        		System.out.println("lensDistortionParameters.r_od["+i+"][0]"+IJ.d2s(lensDistortionParameters.r_od[i][0], 5));
+	        		System.out.println("lensDistortionParameters.r_od["+i+"][1]"+IJ.d2s(lensDistortionParameters.r_od[i][1], 5));
+	        	}
 	        }
 	        if (!calculateDerivatives) return; 
 	/* Calculate all derivativs as a matrix.
@@ -1297,6 +1778,32 @@ dPXmmc/dphi=
 	24(22)		public double distortionA=0.0; // r^4 (normalized to focal length or to sensor half width?)
 	25(23)		public double distortionB=0.0; // r^3
 	26(24)		public double distortionC=0.0; // r^2
+    27          Distortion center shift X for r^3"
+    28          Distortion center shift Y for r^3"
+    29          Distortion center shift X for r^4"
+    30          Distortion center shift Y for r^4"
+    31          Distortion center shift X for r^5"
+    32          Distortion center shift Y for r^5"
+    33          Distortion center shift X for r^6"
+    34          Distortion center shift Y for r^6"
+    35          Distortion center shift X for r^7"
+    36          Distortion center shift Y for r^7"
+    37          Distortion center shift X for r^8"
+    38          Distortion center shift Y for r^8"
+    39          Orthogonal elongation for r^2"
+    40          Diagonal   elongation for r^2"
+    41          Orthogonal elongation for r^3"
+    42          Diagonal   elongation for r^3"
+    43          Orthogonal elongation for r^4"
+    44          Diagonal   elongation for r^4"
+    45          Orthogonal elongation for r^5"
+    46          Diagonal   elongation for r^5"
+    47          Orthogonal elongation for r^6"
+    48          Diagonal   elongation for r^6"
+    49          Orthogonal elongation for r^7"
+    50          Diagonal   elongation for r^7"
+    51          Orthogonal elongation for r^8"
+    52          Diagonal   elongation for r^8"
 	 * Output parameters (rows):
 	0		public double x0=0;      // lens axis from pattern center, mm (to the right)
@@ -1316,7 +1823,33 @@ dPXmmc/dphi=
 	13		public double distortionA=0.0; // r^4 (normalized to focal length or to sensor half width?)
 	14		public double distortionB=0.0; // r^3
 	15		public double distortionC=0.0; // r^2
-	 */
+    16          Distortion center shift X for r^3"
+    17          Distortion center shift Y for r^3"
+    18          Distortion center shift X for r^4"
+    19          Distortion center shift Y for r^4"
+    20          Distortion center shift X for r^5"
+    21          Distortion center shift Y for r^5"
+    22          Distortion center shift X for r^6"
+    23          Distortion center shift Y for r^6"
+    24          Distortion center shift X for r^7"
+    25          Distortion center shift Y for r^7"
+    26          Distortion center shift X for r^8"
+    27          Distortion center shift Y for r^8"
+    28          Orthogonal elongation for r^2"
+    29          Diagonal   elongation for r^2"
+    30          Orthogonal elongation for r^3"
+    31          Diagonal   elongation for r^3"
+    32          Orthogonal elongation for r^4"
+    33          Diagonal   elongation for r^4"
+    34          Orthogonal elongation for r^5"
+    35          Diagonal   elongation for r^5"
+    36          Orthogonal elongation for r^6"
+    37          Diagonal   elongation for r^6"
+    38          Orthogonal elongation for r^7"
+    39          Diagonal   elongation for r^7"
+    40          Orthogonal elongation for r^8"
+    41          Diagonal   elongation for r^8"
+ */
 //	        interParameterDerivatives=new double[getNumInputs()][]; //partial derivative matrix from subcamera-camera-goniometer to single camera (12x21)
 	//calculate dMA_azimuth        
@@ -1682,9 +2215,10 @@ dPXmmc/dphi=
 	//24 (22)		public double distortionA=0.0; // r^4 (normalized to focal length or to sensor half width?)
 	//25 (23)		public double distortionB=0.0; // r^3
 	//26 (24)		public double distortionC=0.0; // r^2
+	//27..52 - non-radial parameters        
 //	        for (int inpPar=15; inpPar<getNumInputs(); inpPar++){
-	        for (int inpPar=17; inpPar<getNumInputs(); inpPar++){ // OK with A8
+	        for (int inpPar=17; inpPar<getNumInputs(); inpPar++){ // OK with A8. Should be OK with non-radial parameters ((27..52) also 
 	        	if (mask[inpPar]){
 	        		interParameterDerivatives[inpPar]=new double[getNumOutputs()];
 	        		for (int outPar=0; outPar<getNumOutputs(); outPar++){
@@ -1762,8 +2296,9 @@ dPXmmc/dphi=
 	     * @return differentials of the {x0,y0,dist,phi,theta,psi} by that parameter
 	     */
 	    public double [] d_parametersFromMAMB(Matrix d_MA, Matrix d_MB, Matrix MA, Matrix MB, boolean isAngle){
-	    	double [] result= new double [getNumOutputs()]; // only first 6 are used
+	    	double [] result= new double [getNumOutputs()]; // only first 6 are used, rest are 0
-	    	for (int i=6; i<getNumOutputs();i++) result[i]=0.0;
+	    	Arrays.fill(result,6, result.length, 0.0);
+//	    	for (int i=6; i<getNumOutputs();i++) result[i]=0.0;
 	/*
 	0		public double x0=0;      // lens axis from pattern center, mm (to the right)
 	1		public double y0=0;      // lens axis from pattern center, mm (down)
@@ -1862,8 +2397,5 @@ dPXmmc/dphi=
 		public int getNumInputs(){return numInputs;}
 		public int getNumOutputs(){return numOutputs;}
 	}
\ No newline at end of file