use of org.ddogleg.clustering.ConfigKMeans in project BoofCV by lessthanoptimal.
the class ExampleClassifySceneKnn method main.
public static void main(String[] args) {
var surfFast = new ConfigDenseSurfFast(new DenseSampling(8, 8));
// ConfigDenseSurfStable surfStable = new ConfigDenseSurfStable(new DenseSampling(8,8));
// ConfigDenseSift sift = new ConfigDenseSift(new DenseSampling(6,6));
// ConfigDenseHoG hog = new ConfigDenseHoG();
DescribeImageDense<GrayU8, TupleDesc_F64> desc = FactoryDescribeImageDense.surfFast(surfFast, GrayU8.class);
// FactoryDescribeImageDense.surfStable(surfStable, GrayU8.class);
// FactoryDescribeImageDense.sift(sift, GrayU8.class);
// FactoryDescribeImageDense.hog(hog, ImageType.single(GrayU8.class));
var configKMeans = new ConfigKMeans();
configKMeans.maxIterations = MAX_KNN_ITERATIONS;
configKMeans.reseedAfterIterations = 20;
ComputeClusters<double[]> clusterer = FactoryClustering.kMeans_MT(configKMeans, desc.createDescription().size(), 200, double[].class);
clusterer.setVerbose(true);
// The _MT tells it to use the threaded version. This can run MUCH faster.
int pointDof = desc.createDescription().size();
NearestNeighbor<HistogramScene> nn = FactoryNearestNeighbor.exhaustive(new KdTreeHistogramScene_F64(pointDof));
ExampleClassifySceneKnn example = new ExampleClassifySceneKnn(desc, clusterer, nn);
var trainingDir = new File(UtilIO.pathExample("learning/scene/train"));
var testingDir = new File(UtilIO.pathExample("learning/scene/test"));
if (!trainingDir.exists() || !testingDir.exists()) {
String addressSrc = "http://boofcv.org/notwiki/largefiles/bow_data_v001.zip";
File dst = new File(trainingDir.getParentFile(), "bow_data_v001.zip");
try {
DeepBoofDataBaseOps.download(addressSrc, dst);
DeepBoofDataBaseOps.decompressZip(dst, dst.getParentFile(), true);
System.out.println("Download complete!");
} catch (IOException e) {
throw new UncheckedIOException(e);
}
} else {
System.out.println("Delete and download again if there are file not found errors");
System.out.println(" " + trainingDir);
System.out.println(" " + testingDir);
}
example.loadSets(trainingDir, null, testingDir);
// train the classifier
example.learnAndSave();
// now load it for evaluation purposes from the files
example.loadAndCreateClassifier();
// test the classifier on the test set
Confusion confusion = example.evaluateTest();
confusion.getMatrix().print();
System.out.println("Accuracy = " + confusion.computeAccuracy());
// Show confusion matrix
// Not the best coloration scheme... perfect = red diagonal and blue elsewhere.
ShowImages.showWindow(new ConfusionMatrixPanel(confusion.getMatrix(), example.getScenes(), 400, true), "Confusion Matrix", true);
// For SIFT descriptor the accuracy is 54.0%
// For "fast" SURF descriptor the accuracy is 52.2%
// For "stable" SURF descriptor the accuracy is 49.4%
// For HOG 53.3%
// SURF results are interesting. "Stable" is significantly better than "fast"!
// One explanation is that the descriptor for "fast" samples a smaller region than "stable", by a
// couple of pixels at scale of 1. Thus there is less overlap between the features.
// Reducing the size of "stable" to 0.95 does slightly improve performance to 50.5%, can't scale it down
// much more without performance going down
}
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