/** * Returns an array with the options of the classifier. * * @return Array of options. */ public String[] getOptions(){ List<String> result = new ArrayList<>(); OptionUtils.add(result, "compression", getCompression()); OptionUtils.add(result, "optimizeAE", isOptimizeAE()); OptionUtils.add(result, "numberAutoencoders", getNumberAutoencoders()); OptionUtils.add(result, super.getOptions()); return OptionUtils.toArray(result); }
/** * Returns an array with the options of the classifier. * * @return Array of options. */ public String[] getOptions(){ List<String> result = new ArrayList<>(); OptionUtils.add(result, "compression", getCompression()); OptionUtils.add(result, "optimizeAE", isOptimizeAE()); OptionUtils.add(result, "numberAutoencoders", getNumberAutoencoders()); OptionUtils.add(result, super.getOptions()); return OptionUtils.toArray(result); }
this.getCompression(), // compression from k-th layer to (k+1)-th layer candidate.setOptimizeAE(false); candidate.setNumberAutoencoders(this.getNumberAutoencoders()); candidate.setCompression(this.getCompression()); candidate.setClassifier(this.getClassifier()); this.getCompression(), // compression from k-th layer to (k+1)-th layer
this.getCompression(), // compression from k-th layer to (k+1)-th layer candidate.setOptimizeAE(false); candidate.setNumberAutoencoders(this.getNumberAutoencoders()); candidate.setCompression(this.getCompression()); candidate.setClassifier(this.getClassifier()); this.getCompression(), // compression from k-th layer to (k+1)-th layer