@Override public DoubleFV normaliseFV(double min, double max) { return asDoubleFV().normaliseFV(min, max); }
@Override public DoubleFV normaliseFV(double p) { return asDoubleFV().normaliseFV(p); }
@Override public DoubleFV normaliseFV(double p) { return asDoubleFV().normaliseFV(p); }
@Override public DoubleFV normaliseFV(double p) { return asDoubleFV().normaliseFV(p); }
@Override public DoubleFV normaliseFV(double[] min, double[] max) { return asDoubleFV().normaliseFV(min, max); }
@Override public DoubleFV normaliseFV(double p) { return asDoubleFV().normaliseFV(p); }
@Override public DoubleFV normaliseFV(double p) { return asDoubleFV().normaliseFV(p); }
@Override public DoubleFV normaliseFV(double p) { return asDoubleFV().normaliseFV(p); }
@Override public DoubleFV normaliseFV(double p) { return asDoubleFV().normaliseFV(p); }
@Override public DoubleFV normaliseFV(double p) { return asDoubleFV().normaliseFV(p); }
@Override public DoubleFV normaliseFV(double[] min, double[] max) { return asDoubleFV().normaliseFV(min, max); }
@Override public DoubleFV normaliseFV(double p) { return asDoubleFV().normaliseFV(p); }
@Override public DoubleFV normaliseFV(double p) { return asDoubleFV().normaliseFV(p); }
@Override public DoubleFV normaliseFV(double p) { return asDoubleFV().normaliseFV(p); }
@Override public DoubleFV normaliseFV(double p) { return asDoubleFV().normaliseFV(p); }
@Override public DoubleFV normaliseFV() { return asDoubleFV().normaliseFV(); }
@Override public DoubleFV normaliseFV(double p) { return asDoubleFV().normaliseFV(p); }
@Override public DoubleFV normaliseFV(double p) { return asDoubleFV().normaliseFV(p); }
@Override public DoubleFV normaliseFV(double min, double max) { return asDoubleFV().normaliseFV(min, max); }
@Override public void perform(MultidimensionalFloatFV vector) { final DoubleFV result = pca.project(vector).normaliseFV(2); final float[] fresult = ArrayUtils.convertToFloat(result.values); synchronized (pcaVlads) { pcaVlads.add(fresult); } } });