public MetaProblemTransformationMethod() { // default classifier for GUI this.m_Classifier = new CC(); }
public EM() { // default classifier for GUI this.m_Classifier = new CC(); }
public EM() { // default classifier for GUI this.m_Classifier = new CC(); }
public MetaProblemTransformationMethod() { // default classifier for GUI this.m_Classifier = new CC(); }
public static void main(String args[]) { ProblemTransformationMethod.evaluation(new CC(), args); } }
public static void main(String args[]) { ProblemTransformationMethod.evaluation(new CC(), args); } }
/** * BuildCC - Build a CC of chain-order 's' on dataset 'D'. */ protected CC buildCC(int s[], Instances D) throws Exception { // a new classifier chain CC h = new CC(); // build this chain h.prepareChain(s); h.setClassifier(m_Classifier); h.buildClassifier(new Instances(D)); return h; }
/** * BuildCC - Given a base classifier 'g', build a new CC classifier on data D, given chain order 'chain'. */ public static CC buildCC(int chain[], Instances D, Classifier g) throws Exception { // a new classifier chain CC h = new CC(); // build this chain h.prepareChain(chain); h.setClassifier(g); h.buildClassifier(new Instances(D)); return h; }
/** * BuildCC - Given a base classifier 'g', build a new CC classifier on data D, given chain order 'chain'. */ public static CC buildCC(int chain[], Instances D, Classifier g) throws Exception { // a new classifier chain CC h = new CC(); // build this chain h.prepareChain(chain); h.setClassifier(g); h.buildClassifier(new Instances(D)); return h; }
/** * BuildCC - Build a CC of chain-order 's' on dataset 'D'. */ protected CC buildCC(int s[], Instances D) throws Exception { // a new classifier chain CC h = new CC(); // build this chain h.prepareChain(s); h.setClassifier(m_Classifier); h.buildClassifier(new Instances(D)); return h; }
new CC() });