public void evaluateObservationNoise( double minPixelError, double maxPixelError, int N, boolean isPlanar) { System.out.println("------------------------"); rand = new Random(234); for (int i = 0; i <= N; i++) { double mag = (maxPixelError - minPixelError) * i / N + minPixelError; init(NUM_POINTS, false, isPlanar); addPixelNoise(mag); if (!target.process(observationPose, found)) throw new RuntimeException("Not expected to fail"); double expectedEuler[] = RotationMatrixGenerator.matrixToEulerXYZ(motion.getR()); double foundEuler[] = RotationMatrixGenerator.matrixToEulerXYZ(found.getR()); Vector3D_F64 expectedTran = motion.getT(); Vector3D_F64 foundTran = found.getT(); double errorTran = expectedTran.distance(foundTran); double errorEuler = 0; double sum = 0; for (int j = 0; j < 3; j++) { double e = expectedEuler[j] - foundEuler[j]; errorEuler += e * e; sum += expectedEuler[j]; } errorEuler = 100 * Math.sqrt(errorEuler) / Math.sqrt(sum); System.out.printf("%3d angle %6.2f%% translation %6.2e\n", i, errorEuler, errorTran); } }
public void evaluateMinimal(double pixelSigma, boolean isPlanar, int numTrials) { // make sure each test case has the same random seed rand = new Random(234); double totalEuler = 0; double totalTran = 0; int totalFail = 0; for (int i = 0; i < numTrials; i++) { init(target.getMinimumPoints(), false, isPlanar); addPixelNoise(pixelSigma); if (!target.process(observationPose, found)) { totalFail++; continue; } double expectedEuler[] = RotationMatrixGenerator.matrixToEulerXYZ(motion.getR()); double foundEuler[] = RotationMatrixGenerator.matrixToEulerXYZ(found.getR()); Vector3D_F64 expectedTran = motion.getT(); Vector3D_F64 foundTran = found.getT(); double errorTran = expectedTran.distance(foundTran); double errorEuler = 0; double sum = 0; for (int j = 0; j < 3; j++) { double e = expectedEuler[j] - foundEuler[j]; errorEuler += e * e; sum += expectedEuler[j]; } errorEuler = 100 * Math.sqrt(errorEuler) / Math.sqrt(sum); // System.out.println(errorEuler); totalEuler += errorEuler; totalTran += errorTran; } int N = numTrials - totalFail; System.out.printf( "%20s N = %d failed %.3f%% euler = %3f%% tran = %5f\n", name, target.getMinimumPoints(), (totalFail / (double) numTrials), (totalEuler / N), (totalTran / N)); }
private void perfectObservations(int numSample) { init(numSample, false); List<PointPosePair> inputs = new ArrayList<PointPosePair>(); for (int i = 0; i < currentObs.size(); i++) { Point2D_F64 o = currentObs.get(i); Point3D_F64 X = worldPts.get(i); inputs.add(new PointPosePair(o, X)); } Se3_F64 found = new Se3_F64(); assertTrue(alg.process(inputs, found)); assertTrue(MatrixFeatures.isIdentical(worldToCamera.getR(), found.getR(), 1e-8)); assertTrue(found.getT().isIdentical(worldToCamera.getT(), 1e-8)); }
@Override public boolean generate(List<Point2D3D> dataSet, Se3_F64 model) { return alg.process(dataSet, model); }