I am doing a school project and I wanted to apply genetic algorithms to neural networks. Specifically building a good neural network for the given problem. I noticed that there are some challenges involved with choosing the right parameters for a neural network so that it can train on some data quickly and efficiently and that it basically comes down to a guessing game. I wanted to build multiple neural networks in a genetic algorithm fashion to find the best initial starting setup to classify a given data set.
I am looking at using the Java library Neuroph, specifically extending the multilayer perceptron implementation. In the library there is the file MultilayerPerceptron.java
under the path org.neuroph.nnet
and it has the method createNetwork
. Here is the implementation of that method
private void createNetwork(List<Integer> neuronsInLayers, NeuronProperties neuronProperties) {
// set network type
this.setNetworkType(NeuralNetworkType.MULTI_LAYER_PERCEPTRON);
// create input layer
NeuronProperties inputNeuronProperties = new NeuronProperties(InputNeuron.class, Linear.class);
Layer layer = LayerFactory.createLayer(neuronsInLayers.get(0), inputNeuronProperties);
boolean useBias = true; // use bias neurons by default
if (neuronProperties.hasProperty("useBias")) {
useBias = (Boolean)neuronProperties.getProperty("useBias");
}
if (useBias) {
layer.addNeuron(new BiasNeuron());
}
this.addLayer(layer);
// create layers
Layer prevLayer = layer;
//for(Integer neuronsNum : neuronsInLayers)
for(int layerIdx = 1; layerIdx < neuronsInLayers.size(); layerIdx++){
Integer neuronsNum = neuronsInLayers.get(layerIdx);
// createLayer layer
layer = LayerFactory.createLayer(neuronsNum, neuronProperties);
if ( useBias && (layerIdx< (neuronsInLayers.size()-1)) ) {
layer.addNeuron(new BiasNeuron());
}
// add created layer to network
this.addLayer(layer);
// createLayer full connectivity between previous and this layer
if (prevLayer != null) {
ConnectionFactory.fullConnect(prevLayer, layer);
}
prevLayer = layer;
}
// set input and output cells for network
NeuralNetworkFactory.setDefaultIO(this);
// set learnng rule
//this.setLearningRule(new BackPropagation(this));
this.setLearningRule(new MomentumBackpropagation());
// this.setLearningRule(new DynamicBackPropagation());
this.randomizeWeights(new NguyenWidrowRandomizer(-0.7, 0.7));
}
So I see many factors that can be tweaked in the building of the network. I am am trying to determine what I might make the genotype of my algorithm.
So the factors that I see that I could tweak are first the number of hidden layers and the number of hidden layer neurons; the input and output layer size is determined by the problem. The neuron properties of the neurons in the network, (specifically, can different neurons have different activation functions?). Possibly the connections between neurons; do all neurons have to be connected to all others in the layers above and below, can some skip a layer? The learning rate of the learning rule used, possibly use a different learning rule for different neurons (pretty sure that's a stupid question).
So overall, what are the factors of a neural network that can be tweaked on the initial setup that would effect how fast and efficiently the network learns? I guess very specifically do all neurons in a neural network have to be identical in operation?
EDIT: Through some search-fu I have found I guess the name of this type of network a compositional pattern producing network CPPN. The main idea being called neuroevolution. An algorithm that implements these ideas is the neuroevolution of augmenting topiologies NEAT. I am looking more into these pages and the links to the papers to try and answer my main questions above. But the question is still mostly open.