List of usage examples for org.apache.commons.math.optimization.direct NelderMead setStartConfiguration
public void setStartConfiguration(final double[] steps) throws IllegalArgumentException
From source file:edu.valelab.GaussianFit.ZCalibrator.java
/** * Use the fitfunction to estimate the z position given width in x and y * //from w ww . j av a 2 s. c o m * minimize the distance D in sqrt wx and sqrt wy space * D = sqrt ( square (sqrt wx - sqrt wx, calib) + sqr(sqrt wy - sqrt w, calib) ) * * */ public double getZ(double wx, double wy) { if (!hasFitFunctions()) return 0.0; NelderMead nmx = new NelderMead(); SimpleScalarValueChecker convergedChecker_ = new SimpleScalarValueChecker(1e-6, -1); MultiVariateZFunction mz = new MultiVariateZFunction(fitFunctionWx_, fitFunctionWy_, wx, wy); double[] params0_ = new double[1]; // initial estimates: params0_[0] = 15; // TODO: Need the middle z value of the stack here!!! nmx.setStartConfiguration(params0_); nmx.setConvergenceChecker(convergedChecker_); nmx.setMaxIterations(maxIterations_); double[] paramsOut = { 0.0 }; try { RealPointValuePair result = nmx.optimize(mz, GoalType.MINIMIZE, params0_); paramsOut = result.getPoint(); } catch (java.lang.OutOfMemoryError e) { throw (e); } catch (Exception e) { ij.IJ.log(" " + e.toString()); } return paramsOut[0]; }
From source file:edu.valelab.gaussianfit.fitting.ZCalibrator.java
/** * Use the fitfunction to estimate the z position given width in x and y * //from ww w.j a v a 2s. com * minimize the distance D in sqrt wx and sqrt wy space * D = sqrt ( square (sqrt wx - sqrt wx, calib) + sqr(sqrt wy - sqrt w, calib) ) * * * @param wx - width in x * @param wy - width in y * @return - calculated z position */ public double getZ(double wx, double wy) { if (!hasFitFunctions()) return 0.0; NelderMead nmx = new NelderMead(); SimpleScalarValueChecker convergedChecker_ = new SimpleScalarValueChecker(1e-6, -1); MultiVariateZFunction mz = new MultiVariateZFunction(fitFunctionWx_, fitFunctionWy_, wx, wy); double[] params0_ = new double[1]; // initial estimates: params0_[0] = 15; // TODO: Need the middle z value of the stack here!!! nmx.setStartConfiguration(params0_); nmx.setConvergenceChecker(convergedChecker_); nmx.setMaxIterations(maxIterations_); double[] paramsOut = { 0.0 }; try { RealPointValuePair result = nmx.optimize(mz, GoalType.MINIMIZE, params0_); paramsOut = result.getPoint(); } catch (java.lang.OutOfMemoryError e) { throw (e); } catch (FunctionEvaluationException e) { ij.IJ.log(" " + e.toString()); } catch (OptimizationException e) { ij.IJ.log(" " + e.toString()); } catch (IllegalArgumentException e) { ij.IJ.log(" " + e.toString()); } return paramsOut[0]; }
From source file:edu.valelab.gaussianfit.fitting.ZCalibrator.java
/** * Creates fitFunctionWx_ and fitFunctionWy_ based on data in data_ * /* w w w .java2s. c om*/ * * @throws org.apache.commons.math.FunctionEvaluationException * @throws org.apache.commons.math.optimization.OptimizationException */ public void fitFunction() throws FunctionEvaluationException, OptimizationException { NelderMead nmx = new NelderMead(); SimpleScalarValueChecker convergedChecker_ = new SimpleScalarValueChecker(1e-6, -1); double[][] wxData = getDataAsArray(0); MultiVariateZCalibrationFunction mvcx = new MultiVariateZCalibrationFunction(wxData); double[] params0_ = new double[5]; // initial estimates: params0_[0] = 37; // TODO: better estimate for c params0_[1] = 200; // Estimate for w0 params0_[2] = 10; // TODO: better estimate for d params0_[3] = 1; // TODO: better estimate for A params0_[4] = 1; // TODO: better estimate for B nmx.setStartConfiguration(params0_); nmx.setConvergenceChecker(convergedChecker_); nmx.setMaxIterations(maxIterations_); double[] paramsOut; RealPointValuePair result = nmx.optimize(mvcx, GoalType.MINIMIZE, params0_); paramsOut = result.getPoint(); // write fit result to Results Table: ResultsTable res = new ResultsTable(); res.incrementCounter(); res.addValue("c", paramsOut[0]); res.addValue("w0", paramsOut[1]); res.addValue("d", paramsOut[2]); res.addValue("A", paramsOut[3]); res.addValue("B", paramsOut[4]); fitFunctionWx_ = paramsOut; double[][] yxData = getDataAsArray(1); MultiVariateZCalibrationFunction yvcx = new MultiVariateZCalibrationFunction(yxData); nmx.setStartConfiguration(params0_); result = nmx.optimize(yvcx, GoalType.MINIMIZE, params0_); paramsOut = result.getPoint(); res.incrementCounter(); res.addValue("c", paramsOut[0]); res.addValue("w0", paramsOut[1]); res.addValue("d", paramsOut[2]); res.addValue("A", paramsOut[3]); res.addValue("B", paramsOut[4]); res.show("Fit Parameters"); fitFunctionWy_ = paramsOut; plotFitFunctions(); }
From source file:edu.valelab.GaussianFit.ZCalibrator.java
/** * Creates fitFunctionWx_ and fitFunctionWy_ based on data in data_ * /*w w w. j ava2s. c om*/ * */ public void fitFunction() throws FunctionEvaluationException, OptimizationException { NelderMead nmx = new NelderMead(); SimpleScalarValueChecker convergedChecker_ = new SimpleScalarValueChecker(1e-6, -1); double[][] wxData = getDataAsArray(0); MultiVariateZCalibrationFunction mvcx = new MultiVariateZCalibrationFunction(wxData); double[] params0_ = new double[5]; // initial estimates: params0_[0] = 37; // TODO: better estimate for c params0_[1] = 200; // Estimate for w0 params0_[2] = 10; // TODO: better estimate for d params0_[3] = 1; // TODO: better estimate for A params0_[4] = 1; // TODO: better estimate for B nmx.setStartConfiguration(params0_); nmx.setConvergenceChecker(convergedChecker_); nmx.setMaxIterations(maxIterations_); double[] paramsOut = { 0.0 }; RealPointValuePair result = nmx.optimize(mvcx, GoalType.MINIMIZE, params0_); paramsOut = result.getPoint(); //for (int i = 0; i < paramsOut.length; i++) { // System.out.println("Result " + i + " value: " + (int) paramsOut[i]); //} // write fit result to Results Table: ResultsTable res = new ResultsTable(); res.incrementCounter(); res.addValue("c", paramsOut[0]); res.addValue("w0", paramsOut[1]); res.addValue("d", paramsOut[2]); res.addValue("A", paramsOut[3]); res.addValue("B", paramsOut[4]); fitFunctionWx_ = paramsOut; double[][] yxData = getDataAsArray(1); MultiVariateZCalibrationFunction yvcx = new MultiVariateZCalibrationFunction(yxData); nmx.setStartConfiguration(params0_); result = nmx.optimize(yvcx, GoalType.MINIMIZE, params0_); paramsOut = result.getPoint(); System.out.println("Y:"); //for (int i = 0; i < paramsOut.length; i++) { // System.out.println("Result " + i + " value: " + (int) paramsOut[i]); //} res.incrementCounter(); res.addValue("c", paramsOut[0]); res.addValue("w0", paramsOut[1]); res.addValue("d", paramsOut[2]); res.addValue("A", paramsOut[3]); res.addValue("B", paramsOut[4]); res.show("Fit Parameters"); fitFunctionWy_ = paramsOut; plotFitFunctions(); }