Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I've been trying to get Encog going for a few days now.

My data consists of 4 input variables (between 1 and 1000), and 1 output variable (between -30 and 30). I am training with around 50,000 rows of data.

The data is normalised (between -1 and 1 for the tanh activation function), before passing it into a neural network with the following structure and training:

 Network.AddLayer(new BasicLayer(null, true, 4));
 Network.AddLayer(new BasicLayer(new ActivationTANH(), true, 8));
 Network.AddLayer(new BasicLayer(new ActivationTANH(), false, 1));
 Network.Structure.FinalizeStructure();
 Network.Reset();

 IMLDataSet trainingData = new BasicMLDataSet(Input.ToArray(), ExpectedOutput.ToArray());

 IMLTrain train = new ResilientPropagation(Network, trainingData);

 int epoch = 1;

 do
 {
     train.Iteration();
     Console.WriteLine(@"Epoch #" + epoch + @" Error:" + train.Error);
     epoch++;
 } while (train.Error > 0.024);

The program then outputs each row's expected output along with the actual output from the neural network. Here is a screenshot of the output (a few rows): http://i.imgur.com/UVWCOis.png

As you can see, the error (which is the average error of the neural network for all of the rows) must be below 0.024 before this output is printed. But many of the expected and actual outputs have a huge amount of error.

I believe that the neural network is not sensitive enough to the propagation. It seems that the actual outputs of the neural network are all very close together, I believe because they haven't deviated far from the initial random weights.

Can anyone suggest how I can fix this?

I have tried reducing the size of the inputs (I used 50), I also tried removing biases, and both of these lead to a similar result.

share|improve this question
up vote 2 down vote accepted

Without seeing your data I cannot really say where the discrepancy is coming from. I suspect some of the data elements have much higher errors than others. If you use this method, it will give you the detail for how the error is calculated and what the "current error" is at each element as it progresses through your data. This will generate quite a bit of output if your data set is large.

    public static void errorDiagnostic(BasicNetwork network, MLDataSet dataSet) {
    int count = 0;
    double totalError = 0;

    System.out.println("Network error: " + network.calculateError(dataSet));


    for(MLDataPair pair : dataSet) {
        MLData actual = network.compute(pair.getInput());
        System.out.println("Evaluating element " + count + " : " + pair.getInput().toString());

        for(int i=0;i<pair.getIdeal().size();i++) {
            double delta = Math.abs(actual.getData(i) - pair.getIdeal().getData(i));
            totalError += delta*delta;
            count++;
            double currentError = totalError/count;
            System.out.println("\tIdeal: " + pair.getIdeal().getData(i) + ", Actual: " + actual.getData(i) + ", Delta: " + delta + ", Current Error: " + currentError);

        }
    }
}

For example, the output for a trained XOR (from the Encog hello world app) is:

    Network error: 0.009643582111728128
Evaluating element 0 : [BasicMLData:0.0,0.0]
    Ideal: 0.0, Actual: 0.10384251352940682, Delta: 0.10384251352940682, Current Error: 0.01078326761610504
Evaluating element 1 : [BasicMLData:1.0,0.0]
    Ideal: 1.0, Actual: 0.9109458503325736, Delta: 0.08905414966742642, Current Error: 0.009356954594546711
Evaluating element 2 : [BasicMLData:0.0,1.0]
    Ideal: 1.0, Actual: 0.8914073581830911, Delta: 0.10859264181690886, Current Error: 0.01016875701528963
Evaluating element 3 : [BasicMLData:1.0,1.0]
    Ideal: 0.0, Actual: 0.08982236581744897, Delta: 0.08982236581744897, Current Error: 0.009643582111728128

This lets you see the degree to which each element is contributing to the error.

share|improve this answer
    
Thanks Jeff. I was getting nowhere with RPROP, but I've been using LMT successfully. The problem I've been having is that the network is not converging. Could the number of records of data be causing this? Or is it more to do with the network's structure (number of hidden neurons, activation functions, training algorithms)? I was under the impression that the network should converge to whatever the training data is, whether this has predictive power is another issue. – janderson Apr 12 '14 at 14:56

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.