コード例 #1
0
ファイル: PeakMLParser.java プロジェクト: joewandy/HDP-Align
  private static Header parseHeader(Node parent) throws XmlParserException {
    Header header = new Header();

    NodeList nodes = parent.getChildNodes();
    for (int nodeid = 0; nodeid < nodes.getLength(); ++nodeid) {
      Node node = nodes.item(nodeid);
      if (node.getNodeType() != Node.ELEMENT_NODE) continue;

      Element element = (Element) node;
      try {
        if (element.getTagName().equals("nrpeaks"))
          header.setNrPeaks(Integer.parseInt(element.getTextContent()));
        else if (element.getTagName().equals("date")) header.setDate(element.getTextContent());
        else if (element.getTagName().equals("owner")) header.setOwner(element.getTextContent());
        else if (element.getTagName().equals("description"))
          header.setDescription(element.getTextContent());
        else if (element.getTagName().equals("sets")) header.addSetInfos(parseSets(element));
        else if (element.getTagName().equals("measurements"))
          header.addMeasurementInfos(parseMeasurements(element));
        else if (element.getTagName().equals("annotations")) {
          Vector<Annotation> annotations = parseAnnotations(element);
          if (annotations != null)
            for (Annotation annotation : annotations) header.addAnnotation(annotation);
        }
      } catch (Exception e) {
        throw new XmlParserException(
            "Invalid value in header (" + element.getTagName() + "): '" + e.getMessage() + "'.");
      }
    }

    return header;
  }
コード例 #2
0
  public static PMML generateSimpleNeuralNetwork(
      String modelName,
      String[] inputfieldNames,
      String[] outputfieldNames,
      double[] inputMeans,
      double[] inputStds,
      double[] outputMeans,
      double[] outputStds,
      int hiddenSize,
      double[] weights) {

    int counter = 0;
    int wtsIndex = 0;
    PMML pmml = new PMML();
    pmml.setVersion("4.0");

    Header header = new Header();
    Application app = new Application();
    app.setName("Drools PMML Generator");
    app.setVersion("0.01 Alpha");
    header.setApplication(app);

    header.setCopyright("BSD");

    header.setDescription(" Smart Vent Model ");

    Timestamp ts = new Timestamp();
    ts.getContent().add(new java.util.Date().toString());
    header.setTimestamp(ts);

    pmml.setHeader(header);

    DataDictionary dic = new DataDictionary();
    dic.setNumberOfFields(BigInteger.valueOf(inputfieldNames.length + outputfieldNames.length));
    for (String ifld : inputfieldNames) {
      DataField dataField = new DataField();
      dataField.setName(ifld);
      dataField.setDataType(DATATYPE.DOUBLE);
      dataField.setDisplayName(ifld);
      dataField.setOptype(OPTYPE.CONTINUOUS);
      dic.getDataFields().add(dataField);
    }
    for (String ofld : outputfieldNames) {
      DataField dataField = new DataField();
      dataField.setName(ofld);
      dataField.setDataType(DATATYPE.DOUBLE);
      dataField.setDisplayName(ofld);
      dataField.setOptype(OPTYPE.CONTINUOUS);
      dic.getDataFields().add(dataField);
    }

    pmml.setDataDictionary(dic);

    NeuralNetwork nnet = new NeuralNetwork();
    nnet.setActivationFunction(ACTIVATIONFUNCTION.LOGISTIC);
    nnet.setFunctionName(MININGFUNCTION.REGRESSION);
    nnet.setNormalizationMethod(NNNORMALIZATIONMETHOD.NONE);
    nnet.setModelName(modelName);

    MiningSchema miningSchema = new MiningSchema();
    for (String ifld : inputfieldNames) {
      MiningField mfld = new MiningField();
      mfld.setName(ifld);
      mfld.setOptype(OPTYPE.CONTINUOUS);
      mfld.setUsageType(FIELDUSAGETYPE.ACTIVE);
      miningSchema.getMiningFields().add(mfld);
    }
    for (String ofld : outputfieldNames) {
      MiningField mfld = new MiningField();
      mfld.setName(ofld);
      mfld.setOptype(OPTYPE.CONTINUOUS);
      mfld.setUsageType(FIELDUSAGETYPE.PREDICTED);
      miningSchema.getMiningFields().add(mfld);
    }

    nnet.getExtensionsAndNeuralLayersAndNeuralInputs().add(miningSchema);

    Output outputs = new Output();
    for (String ofld : outputfieldNames) {
      OutputField outFld = new OutputField();
      outFld.setName("Out_" + ofld);
      outFld.setTargetField(ofld);
      outputs.getOutputFields().add(outFld);
    }

    nnet.getExtensionsAndNeuralLayersAndNeuralInputs().add(outputs);

    NeuralInputs nins = new NeuralInputs();
    nins.setNumberOfInputs(BigInteger.valueOf(inputfieldNames.length));

    for (int j = 0; j < inputfieldNames.length; j++) {
      String ifld = inputfieldNames[j];
      NeuralInput nin = new NeuralInput();
      nin.setId("" + counter++);
      DerivedField der = new DerivedField();
      der.setDataType(DATATYPE.DOUBLE);
      der.setOptype(OPTYPE.CONTINUOUS);
      NormContinuous nc = new NormContinuous();
      nc.setField(ifld);
      nc.setOutliers(OUTLIERTREATMENTMETHOD.AS_IS);
      LinearNorm lin1 = new LinearNorm();
      lin1.setOrig(0);
      lin1.setNorm(-inputMeans[j] / inputStds[j]);
      nc.getLinearNorms().add(lin1);
      LinearNorm lin2 = new LinearNorm();
      lin2.setOrig(inputMeans[j]);
      lin2.setNorm(0);
      nc.getLinearNorms().add(lin2);
      der.setNormContinuous(nc);
      nin.setDerivedField(der);
      nins.getNeuralInputs().add(nin);
    }

    nnet.getExtensionsAndNeuralLayersAndNeuralInputs().add(nins);

    NeuralLayer hidden = new NeuralLayer();
    hidden.setNumberOfNeurons(BigInteger.valueOf(hiddenSize));

    for (int j = 0; j < hiddenSize; j++) {
      Neuron n = new Neuron();
      n.setId("" + counter++);
      n.setBias(weights[wtsIndex++]);
      for (int k = 0; k < inputfieldNames.length; k++) {
        Synapse con = new Synapse();
        con.setFrom("" + k);
        con.setWeight(weights[wtsIndex++]);
        n.getCons().add(con);
      }
      hidden.getNeurons().add(n);
    }

    nnet.getExtensionsAndNeuralLayersAndNeuralInputs().add(hidden);

    NeuralLayer outer = new NeuralLayer();
    outer.setActivationFunction(ACTIVATIONFUNCTION.IDENTITY);
    outer.setNumberOfNeurons(BigInteger.valueOf(outputfieldNames.length));

    for (int j = 0; j < outputfieldNames.length; j++) {
      Neuron n = new Neuron();
      n.setId("" + counter++);
      n.setBias(weights[wtsIndex++]);
      for (int k = 0; k < hiddenSize; k++) {
        Synapse con = new Synapse();
        con.setFrom("" + (k + inputfieldNames.length));
        con.setWeight(weights[wtsIndex++]);
        n.getCons().add(con);
      }
      outer.getNeurons().add(n);
    }

    nnet.getExtensionsAndNeuralLayersAndNeuralInputs().add(outer);

    NeuralOutputs finalOuts = new NeuralOutputs();
    finalOuts.setNumberOfOutputs(BigInteger.valueOf(outputfieldNames.length));
    for (int j = 0; j < outputfieldNames.length; j++) {
      NeuralOutput output = new NeuralOutput();
      output.setOutputNeuron("" + (j + inputfieldNames.length + hiddenSize));
      DerivedField der = new DerivedField();
      der.setDataType(DATATYPE.DOUBLE);
      der.setOptype(OPTYPE.CONTINUOUS);
      NormContinuous nc = new NormContinuous();
      nc.setField(outputfieldNames[j]);
      nc.setOutliers(OUTLIERTREATMENTMETHOD.AS_IS);
      LinearNorm lin1 = new LinearNorm();
      lin1.setOrig(0);
      lin1.setNorm(-outputMeans[j] / outputStds[j]);
      nc.getLinearNorms().add(lin1);
      LinearNorm lin2 = new LinearNorm();
      lin2.setOrig(outputMeans[j]);
      lin2.setNorm(0);
      nc.getLinearNorms().add(lin2);
      der.setNormContinuous(nc);
      output.setDerivedField(der);
      finalOuts.getNeuralOutputs().add(output);
    }

    nnet.getExtensionsAndNeuralLayersAndNeuralInputs().add(finalOuts);

    pmml.getAssociationModelsAndBaselineModelsAndClusteringModels().add(nnet);

    return pmml;
  }