Java Code Examples for org.apache.commons.math3.distribution.MultivariateNormalDistribution#getCovariances()
The following examples show how to use
org.apache.commons.math3.distribution.MultivariateNormalDistribution#getCovariances() .
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Example 1
| Source File: GaussianTest.java From macrobase with Apache License 2.0 | 5 votes |
|
@Test
public void testMahalanobis() {
MultivariateNormalDistribution mvNormal = getSample3dNormal();
Gaussian gaussian = new Gaussian(mvNormal.getMeans(), mvNormal.getCovariances());
int N = 100000;
int k = 3;
double[][] testData = new double[N][k];
for (int i = 0; i < N; i++) {
testData[i] = mvNormal.sample();
}
double[] mScores = new double[N];
long startTime = System.currentTimeMillis();
for (int i = 0; i < N; i++) {
mScores[i] = gaussian.mahalanobis(testData[i]);
}
long endTime = System.currentTimeMillis();
log.debug("Mahalobis distance on {} in {}", N, endTime-startTime);
double[] dScores = new double[N];
startTime = System.currentTimeMillis();
for (int i = 0; i < N; i++) {
dScores[i] = -Math.log(mvNormal.density(testData[i]));
}
endTime = System.currentTimeMillis();
log.debug("LogPDF on {} in {}", N, endTime-startTime);
// Check that mahalonbis distance has same relative magnitude as -log(pdf)
for (int i = 1; i < N; i++) {
assertEquals(mScores[i] > mScores[i-1], dScores[i] > dScores[i-1]);
}
}
Example 2
| Source File: MultivariateNormalMixtureExpectationMaximizationTest.java From astor with GNU General Public License v2.0 | 4 votes |
|
@Test
public void testFit() {
// Test that the loglikelihood, weights, and models are determined and
// fitted correctly
final double[][] data = getTestSamples();
final double correctLogLikelihood = -4.292431006791994;
final double[] correctWeights = new double[] { 0.2962324189652912, 0.7037675810347089 };
final double[][] correctMeans = new double[][]{
{-1.4213112715121132, 1.6924690505757753},
{4.213612224374709, 7.975621325853645}
};
final RealMatrix[] correctCovMats = new Array2DRowRealMatrix[2];
correctCovMats[0] = new Array2DRowRealMatrix(new double[][] {
{ 1.739356907285747, -0.5867644251487614 },
{ -0.5867644251487614, 1.0232932029324642 } }
);
correctCovMats[1] = new Array2DRowRealMatrix(new double[][] {
{ 4.245384898007161, 2.5797798966382155 },
{ 2.5797798966382155, 3.9200272522448367 } });
final MultivariateNormalDistribution[] correctMVNs = new MultivariateNormalDistribution[2];
correctMVNs[0] = new MultivariateNormalDistribution(correctMeans[0], correctCovMats[0].getData());
correctMVNs[1] = new MultivariateNormalDistribution(correctMeans[1], correctCovMats[1].getData());
MultivariateNormalMixtureExpectationMaximization fitter
= new MultivariateNormalMixtureExpectationMaximization(data);
MixtureMultivariateNormalDistribution initialMix
= MultivariateNormalMixtureExpectationMaximization.estimate(data, 2);
fitter.fit(initialMix);
MixtureMultivariateNormalDistribution fittedMix = fitter.getFittedModel();
List<Pair<Double, MultivariateNormalDistribution>> components = fittedMix.getComponents();
Assert.assertEquals(correctLogLikelihood,
fitter.getLogLikelihood(),
Math.ulp(1d));
int i = 0;
for (Pair<Double, MultivariateNormalDistribution> component : components) {
final double weight = component.getFirst();
final MultivariateNormalDistribution mvn = component.getSecond();
final double[] mean = mvn.getMeans();
final RealMatrix covMat = mvn.getCovariances();
Assert.assertEquals(correctWeights[i], weight, Math.ulp(1d));
Assert.assertTrue(Arrays.equals(correctMeans[i], mean));
Assert.assertEquals(correctCovMats[i], covMat);
i++;
}
}
Example 3
| Source File: MultivariateNormalMixtureExpectationMaximizationTest.java From astor with GNU General Public License v2.0 | 4 votes |
|
@Test
public void testFit() {
// Test that the loglikelihood, weights, and models are determined and
// fitted correctly
final double[][] data = getTestSamples();
final double correctLogLikelihood = -4.292431006791994;
final double[] correctWeights = new double[] { 0.2962324189652912, 0.7037675810347089 };
final double[][] correctMeans = new double[][]{
{-1.4213112715121132, 1.6924690505757753},
{4.213612224374709, 7.975621325853645}
};
final RealMatrix[] correctCovMats = new Array2DRowRealMatrix[2];
correctCovMats[0] = new Array2DRowRealMatrix(new double[][] {
{ 1.739356907285747, -0.5867644251487614 },
{ -0.5867644251487614, 1.0232932029324642 } }
);
correctCovMats[1] = new Array2DRowRealMatrix(new double[][] {
{ 4.245384898007161, 2.5797798966382155 },
{ 2.5797798966382155, 3.9200272522448367 } });
final MultivariateNormalDistribution[] correctMVNs = new MultivariateNormalDistribution[2];
correctMVNs[0] = new MultivariateNormalDistribution(correctMeans[0], correctCovMats[0].getData());
correctMVNs[1] = new MultivariateNormalDistribution(correctMeans[1], correctCovMats[1].getData());
MultivariateNormalMixtureExpectationMaximization fitter
= new MultivariateNormalMixtureExpectationMaximization(data);
MixtureMultivariateNormalDistribution initialMix
= MultivariateNormalMixtureExpectationMaximization.estimate(data, 2);
fitter.fit(initialMix);
MixtureMultivariateNormalDistribution fittedMix = fitter.getFittedModel();
List<Pair<Double, MultivariateNormalDistribution>> components = fittedMix.getComponents();
Assert.assertEquals(correctLogLikelihood,
fitter.getLogLikelihood(),
Math.ulp(1d));
int i = 0;
for (Pair<Double, MultivariateNormalDistribution> component : components) {
final double weight = component.getFirst();
final MultivariateNormalDistribution mvn = component.getSecond();
final double[] mean = mvn.getMeans();
final RealMatrix covMat = mvn.getCovariances();
Assert.assertEquals(correctWeights[i], weight, Math.ulp(1d));
Assert.assertTrue(Arrays.equals(correctMeans[i], mean));
Assert.assertEquals(correctCovMats[i], covMat);
i++;
}
}
Example 4
| Source File: MultivariateNormalMixtureExpectationMaximizationTest.java From astor with GNU General Public License v2.0 | 4 votes |
|
@Test
public void testFit() {
// Test that the loglikelihood, weights, and models are determined and
// fitted correctly
final double[][] data = getTestSamples();
final double correctLogLikelihood = -4.292431006791994;
final double[] correctWeights = new double[] { 0.2962324189652912, 0.7037675810347089 };
final double[][] correctMeans = new double[][]{
{-1.4213112715121132, 1.6924690505757753},
{4.213612224374709, 7.975621325853645}
};
final RealMatrix[] correctCovMats = new Array2DRowRealMatrix[2];
correctCovMats[0] = new Array2DRowRealMatrix(new double[][] {
{ 1.739356907285747, -0.5867644251487614 },
{ -0.5867644251487614, 1.0232932029324642 } }
);
correctCovMats[1] = new Array2DRowRealMatrix(new double[][] {
{ 4.245384898007161, 2.5797798966382155 },
{ 2.5797798966382155, 3.9200272522448367 } });
final MultivariateNormalDistribution[] correctMVNs = new MultivariateNormalDistribution[2];
correctMVNs[0] = new MultivariateNormalDistribution(correctMeans[0], correctCovMats[0].getData());
correctMVNs[1] = new MultivariateNormalDistribution(correctMeans[1], correctCovMats[1].getData());
MultivariateNormalMixtureExpectationMaximization fitter
= new MultivariateNormalMixtureExpectationMaximization(data);
MixtureMultivariateNormalDistribution initialMix
= MultivariateNormalMixtureExpectationMaximization.estimate(data, 2);
fitter.fit(initialMix);
MixtureMultivariateNormalDistribution fittedMix = fitter.getFittedModel();
List<Pair<Double, MultivariateNormalDistribution>> components = fittedMix.getComponents();
Assert.assertEquals(correctLogLikelihood,
fitter.getLogLikelihood(),
Math.ulp(1d));
int i = 0;
for (Pair<Double, MultivariateNormalDistribution> component : components) {
final double weight = component.getFirst();
final MultivariateNormalDistribution mvn = component.getSecond();
final double[] mean = mvn.getMeans();
final RealMatrix covMat = mvn.getCovariances();
Assert.assertEquals(correctWeights[i], weight, Math.ulp(1d));
Assert.assertTrue(Arrays.equals(correctMeans[i], mean));
Assert.assertEquals(correctCovMats[i], covMat);
i++;
}
}
Example 5
| Source File: MultivariateNormalMixtureExpectationMaximizationTest.java From astor with GNU General Public License v2.0 | 4 votes |
|
@Test
public void testFit() {
// Test that the loglikelihood, weights, and models are determined and
// fitted correctly
final double[][] data = getTestSamples();
final double correctLogLikelihood = -4.292431006791994;
final double[] correctWeights = new double[] { 0.2962324189652912, 0.7037675810347089 };
final double[][] correctMeans = new double[][]{
{-1.4213112715121132, 1.6924690505757753},
{4.213612224374709, 7.975621325853645}
};
final RealMatrix[] correctCovMats = new Array2DRowRealMatrix[2];
correctCovMats[0] = new Array2DRowRealMatrix(new double[][] {
{ 1.739356907285747, -0.5867644251487614 },
{ -0.5867644251487614, 1.0232932029324642 } }
);
correctCovMats[1] = new Array2DRowRealMatrix(new double[][] {
{ 4.245384898007161, 2.5797798966382155 },
{ 2.5797798966382155, 3.9200272522448367 } });
final MultivariateNormalDistribution[] correctMVNs = new MultivariateNormalDistribution[2];
correctMVNs[0] = new MultivariateNormalDistribution(correctMeans[0], correctCovMats[0].getData());
correctMVNs[1] = new MultivariateNormalDistribution(correctMeans[1], correctCovMats[1].getData());
MultivariateNormalMixtureExpectationMaximization fitter
= new MultivariateNormalMixtureExpectationMaximization(data);
MixtureMultivariateNormalDistribution initialMix
= MultivariateNormalMixtureExpectationMaximization.estimate(data, 2);
fitter.fit(initialMix);
MixtureMultivariateNormalDistribution fittedMix = fitter.getFittedModel();
List<Pair<Double, MultivariateNormalDistribution>> components = fittedMix.getComponents();
Assert.assertEquals(correctLogLikelihood,
fitter.getLogLikelihood(),
Math.ulp(1d));
int i = 0;
for (Pair<Double, MultivariateNormalDistribution> component : components) {
final double weight = component.getFirst();
final MultivariateNormalDistribution mvn = component.getSecond();
final double[] mean = mvn.getMeans();
final RealMatrix covMat = mvn.getCovariances();
Assert.assertEquals(correctWeights[i], weight, Math.ulp(1d));
Assert.assertTrue(Arrays.equals(correctMeans[i], mean));
Assert.assertEquals(correctCovMats[i], covMat);
i++;
}
}
