public void trainAndSave() { System.out.println("Training XOR network to under 1% error rate."); BasicNetwork network = new BasicNetwork(); network.addLayer(new BasicLayer(2)); network.addLayer(new BasicLayer(2)); network.addLayer(new BasicLayer(1)); network.getStructure().finalizeStructure(); network.reset(); NeuralDataSet trainingSet = new BasicNeuralDataSet(XOR_INPUT, XOR_IDEAL); // train the neural network final Train train = new ResilientPropagation(network, trainingSet); do { train.iteration(); } while (train.getError() > 0.009); double e = network.calculateError(trainingSet); System.out.println("Network traiined to error: " + e); System.out.println("Saving network"); final EncogPersistedCollection encog = new EncogPersistedCollection(FILENAME); encog.create(); encog.add("network", network); }
public static void main(String args[]) { int inputNeurons = CHAR_WIDTH * CHAR_HEIGHT; int outputNeurons = DIGITS.length; BasicNetwork network = new BasicNetwork(); Layer inputLayer = new BasicLayer(new ActivationLinear(), false, inputNeurons); Layer outputLayer = new BasicLayer(new ActivationLinear(), true, outputNeurons); network.addLayer(inputLayer); network.addLayer(outputLayer); network.getStructure().finalizeStructure(); (new RangeRandomizer(-0.5, 0.5)).randomize(network); // train it NeuralDataSet training = generateTraining(); Train train = new TrainAdaline(network, training, 0.01); int epoch = 1; do { train.iteration(); System.out.println("Epoch #" + epoch + " Error:" + train.getError()); epoch++; } while (train.getError() > 0.01); // System.out.println("Error:" + network.calculateError(training)); // test it for (int i = 0; i < DIGITS.length; i++) { int output = network.winner(image2data(DIGITS[i])); for (int j = 0; j < CHAR_HEIGHT; j++) { if (j == CHAR_HEIGHT - 1) System.out.println(DIGITS[i][j] + " -> " + output); else System.out.println(DIGITS[i][j]); } System.out.println(); } }
/** * * <br> * Updates the neural networks</br> <br> * Assumes that the * */ private void trainNeuralNets(int id) { Train train = new ResilientPropagation(array_of_neural_nets[id], input_datas[id].getTrainingSet()); int epoch = 0; while (train.getError() > error_allowed && epoch < max_epoch) { train.iteration(); epoch++; } }
public static double trainNetwork( final String what, final BasicNetwork network, final NeuralDataSet trainingSet) { // train the neural network CalculateScore score = new TrainingSetScore(trainingSet); final Train trainAlt = new NeuralSimulatedAnnealing(network, score, 10, 2, 100); final Train trainMain = new Backpropagation(network, trainingSet, 0.00001, 0.0); final StopTrainingStrategy stop = new StopTrainingStrategy(); trainMain.addStrategy(new Greedy()); trainMain.addStrategy(new HybridStrategy(trainAlt)); trainMain.addStrategy(stop); int epoch = 0; while (!stop.shouldStop()) { trainMain.iteration(); System.out.println( "Training " + what + ", Epoch #" + epoch + " Error:" + trainMain.getError()); epoch++; } return trainMain.getError(); }