public static void PCACompute(Mat data, Mat mean, Mat eigenvectors, double retainedVariance) { PCACompute_0(data.nativeObj, mean.nativeObj, eigenvectors.nativeObj, retainedVariance); return; }
public static void PCACompute(Mat data, Mat mean, Mat eigenvectors, int maxComponents) { PCACompute_0(data.nativeObj, mean.nativeObj, eigenvectors.nativeObj, maxComponents); return; }
public static void PCACompute(Mat data, Mat mean, Mat eigenvectors, double retainedVariance) { PCACompute_0(data.nativeObj, mean.nativeObj, eigenvectors.nativeObj, retainedVariance); return; }
public static void PCACompute(Mat data, Mat mean, Mat eigenvectors, double retainedVariance) { PCACompute_0(data.nativeObj, mean.nativeObj, eigenvectors.nativeObj, retainedVariance); return; }
public static void PCACompute(Mat data, Mat mean, Mat eigenvectors, int maxComponents) { PCACompute_0(data.nativeObj, mean.nativeObj, eigenvectors.nativeObj, maxComponents); return; }
public static void PCACompute(Mat data, Mat mean, Mat eigenvectors, double retainedVariance) { PCACompute_0(data.nativeObj, mean.nativeObj, eigenvectors.nativeObj, retainedVariance); return; }
public static void PCACompute(Mat data, Mat mean, Mat eigenvectors, double retainedVariance) { PCACompute_0(data.nativeObj, mean.nativeObj, eigenvectors.nativeObj, retainedVariance); return; }
public static void PCACompute(Mat data, Mat mean, Mat eigenvectors, double retainedVariance) { PCACompute_0(data.nativeObj, mean.nativeObj, eigenvectors.nativeObj, retainedVariance); return; }
public static void PCACompute(Mat data, Mat mean, Mat eigenvectors, double retainedVariance) { PCACompute_0(data.nativeObj, mean.nativeObj, eigenvectors.nativeObj, retainedVariance); return; }
public static void PCACompute(Mat data, Mat mean, Mat eigenvectors, double retainedVariance) { PCACompute_0(data.nativeObj, mean.nativeObj, eigenvectors.nativeObj, retainedVariance); return; }
public static void PCACompute(Mat data, Mat mean, Mat eigenvectors, int maxComponents) { PCACompute_0(data.nativeObj, mean.nativeObj, eigenvectors.nativeObj, maxComponents); return; }
public static void PCACompute(Mat data, Mat mean, Mat eigenvectors, double retainedVariance) { PCACompute_0(data.nativeObj, mean.nativeObj, eigenvectors.nativeObj, retainedVariance); return; }
public static void PCACompute(Mat data, Mat mean, Mat eigenvectors, double retainedVariance) { PCACompute_0(data.nativeObj, mean.nativeObj, eigenvectors.nativeObj, retainedVariance); return; }
public static void PCACompute(Mat data, Mat mean, Mat eigenvectors, int maxComponents) { PCACompute_0(data.nativeObj, mean.nativeObj, eigenvectors.nativeObj, maxComponents); return; }
public static void PCACompute(Mat data, Mat mean, Mat eigenvectors, double retainedVariance) { PCACompute_0(data.nativeObj, mean.nativeObj, eigenvectors.nativeObj, retainedVariance); return; }
public static void PCACompute(Mat data, Mat mean, Mat eigenvectors, int maxComponents) { PCACompute_0(data.nativeObj, mean.nativeObj, eigenvectors.nativeObj, maxComponents); return; }
public static void PCACompute(Mat data, Mat mean, Mat eigenvectors, double retainedVariance) { PCACompute_0(data.nativeObj, mean.nativeObj, eigenvectors.nativeObj, retainedVariance); return; }
public static void PCACompute(Mat data, Mat mean, Mat eigenvectors, double retainedVariance) { PCACompute_0(data.nativeObj, mean.nativeObj, eigenvectors.nativeObj, retainedVariance); return; }
public static void PCACompute(Mat data, Mat mean, Mat eigenvectors, int maxComponents) { PCACompute_0(data.nativeObj, mean.nativeObj, eigenvectors.nativeObj, maxComponents); return; }