learning: naming in bp changed and qp modified

2016-05-07 20:41:52 +02:00
parent c03a13c0f8
commit 36ce3f6463
4 changed files with 82 additions and 49 deletions
--- a/include/NeuralNetwork/Learning/BackPropagation.h
+++ b/include/NeuralNetwork/Learning/BackPropagation.h
@@ -16,7 +16,7 @@ namespace Learning {
 		public:
 			inline BackPropagation(FeedForward::Network &feedForwardNetwork, CorrectionFunction::CorrectionFunction *correction = new CorrectionFunction::Linear()):
-									network(feedForwardNetwork), correctionFunction(correction),learningCoefficient(0.4), deltas() {
+									network(feedForwardNetwork), correctionFunction(correction),learningCoefficient(0.4), slopes() {
 				resize();
 			}
@@ -34,24 +34,26 @@ namespace Learning {
 		protected:
 			virtual inline void resize() {
-				if(deltas.size()!=network.size())
+				if(slopes.size()!=network.size())
-					deltas.resize(network.size());
+					slopes.resize(network.size());
 				for(std::size_t i=0; i < network.size(); i++) {
-					if(deltas[i].size()!=network[i].size())
+					if(slopes[i].size()!=network[i].size())
-						deltas[i].resize(network[i].size());
+						slopes[i].resize(network[i].size());
 				}
 			}
 			virtual void updateWeights(const std::vector<float> &input);
 			virtual void computeDeltas(const std::vector<float> &expectation);
 			FeedForward::Network &network;
 			CorrectionFunction::CorrectionFunction *correctionFunction;
 			float learningCoefficient;
-			std::vector<std::vector<float>> deltas;
+			std::vector<std::vector<float>> slopes;
 	};
 }
 }
--- a/include/NeuralNetwork/Learning/QuickPropagation.h
+++ b/include/NeuralNetwork/Learning/QuickPropagation.h
@@ -16,7 +16,7 @@ namespace NeuralNetwork {
 		public:
 			inline QuickPropagation(FeedForward::Network &feedForwardNetwork, CorrectionFunction::CorrectionFunction *correction = new CorrectionFunction::Linear()):
-				BackPropagation(feedForwardNetwork,correction),deltasPrev() {
+				BackPropagation(feedForwardNetwork,correction),previousSlopes() {
 				resize();
 			}
@@ -24,32 +24,49 @@ namespace NeuralNetwork {
 			}
 		protected:
 			float _maxChange=1.75;
 			float _epsilon=0.5;
 			virtual inline void resize() override {
-				if(deltas.size()!=network.size())
+				if(slopes.size()!=network.size())
-					deltas.resize(network.size());
+					slopes.resize(network.size());
 				for(std::size_t i=0; i < network.size(); i++) {
-					if(deltas[i].size()!=network[i].size())
+					if(slopes[i].size()!=network[i].size())
-						deltas[i].resize(network[i].size());
+						slopes[i].resize(network[i].size());
 				}
-				if(deltasPrev.size()!=network.size())
+				if(previousSlopes.size()!=network.size())
-					deltasPrev.resize(network.size());
+					previousSlopes.resize(network.size());
 				for(std::size_t i=0; i < network.size(); i++) {
-					if(deltasPrev[i].size()!=network[i].size())
+					if(previousSlopes[i].size()!=network[i].size())
-						deltasPrev[i].resize(network[i].size());
+						previousSlopes[i].resize(network[i].size());
-					for(std::size_t j=0; j < deltasPrev[i].size(); j++) {
+					for(std::size_t j=0; j < previousSlopes[i].size(); j++) {
-						deltasPrev[i][j]=1.0;
+						previousSlopes[i][j]=1.0;
 					}
 				}
 				if(lastWeightChange.size()!=network.size())
 					lastWeightChange.resize(network.size());
 				for(std::size_t i=0; i < network.size(); i++) {
 					if(lastWeightChange[i].size()!=network[i].size())
 						lastWeightChange[i].resize(network[i].size());
 					for(std::size_t j=0; j < previousSlopes[i].size(); j++) {
 						lastWeightChange[i][j]=1.0;
 					}
 				}
 				weightChange= lastWeightChange;
 			}
 			virtual void updateWeights(const std::vector<float> &input) override;
-			std::vector<std::vector<float>> deltasPrev;
+			std::vector<std::vector<float>> previousSlopes ={};
 			std::vector<std::vector<float>> lastWeightChange ={};
 			std::vector<std::vector<float>> weightChange ={};
 		};
 	}
 }
--- a/src/NeuralNetwork/Learning/BackPropagation.cpp
+++ b/src/NeuralNetwork/Learning/BackPropagation.cpp
@@ -9,30 +9,12 @@ void NeuralNetwork::Learning::BackPropagation::teach(const std::vector<float> &i
 	resize();
-	auto& outputLayer=network[network.size()-1];
+	computeDeltas(expectation);
 	for(std::size_t j=1;j<outputLayer.size();j++) {
 		auto& neuron = outputLayer[j];
 		deltas[network.size()-1][j]=correctionFunction->operator()( expectation[j-1], neuron.output())*
 										neuron.getActivationFunction().derivatedOutput(neuron.value(),neuron.output());
 	}
 	for(int layerIndex=static_cast<int>(network.size()-2);layerIndex>0;layerIndex--) {
 		auto &layer=network[layerIndex];
 		for(std::size_t j=1;j<layer.size();j++) {
 			float deltasWeight = 0;
 			for(std::size_t k=1;k<network[layerIndex+1].size();k++) {
 				deltasWeight+=deltas[layerIndex+1][k]* network[layerIndex+1][k].weight(j);
 			}
 			deltas[layerIndex][j]=deltasWeight*layer[j].getActivationFunction().derivatedOutput(layer[j].value(),layer[j].output());
 		}
 	}
 	updateWeights(input);
 }
 void NeuralNetwork::Learning::BackPropagation::updateWeights(const std::vector<float> &input) {
 	for(std::size_t layerIndex=1;layerIndex<network.size();layerIndex++) {
@@ -44,18 +26,43 @@ void NeuralNetwork::Learning::BackPropagation::updateWeights(const std::vector<f
 		for(std::size_t j=1;j<layerSize;j++)  {
-			deltas[layerIndex][j]*=learningCoefficient;
+			float delta =slopes[layerIndex][j]*learningCoefficient;
-			layer[j].weight(0)+=deltas[layerIndex][j];
+			layer[j].weight(0)+=delta;
 			for(std::size_t k=1;k<prevLayerSize;k++) {
 				if(layerIndex==1) {
-					layer[j].weight(k)+=deltas[layerIndex][j]*input[k-1];
+					layer[j].weight(k)+=delta*input[k-1];
 				} else {
-					layer[j].weight(k)+=deltas[layerIndex][j]*prevLayer[k].output();
+					layer[j].weight(k)+=delta*prevLayer[k].output();
 				}
 			}
 		}
 	}
 }
 void NeuralNetwork::Learning::BackPropagation::computeDeltas(const std::vector<float> &expectation) {
 	auto& outputLayer=network[network.size()-1];
 	for(std::size_t j=1;j<outputLayer.size();j++) {
 		auto& neuron = outputLayer[j];
 		slopes[network.size()-1][j]=correctionFunction->operator()( expectation[j-1], neuron.output())*
 									neuron.getActivationFunction().derivatedOutput(neuron.value(),neuron.output());
 	}
 	for(int layerIndex=static_cast<int>(network.size()-2);layerIndex>0;layerIndex--) {
 		auto &layer=network[layerIndex];
 		for(std::size_t j=1;j<layer.size();j++) {
 			float deltasWeight = 0;
 			for(std::size_t k=1;k<network[layerIndex+1].size();k++) {
 				deltasWeight+=slopes[layerIndex+1][k]* network[layerIndex+1][k].weight(j);
 			}
 			slopes[layerIndex][j]=deltasWeight*layer[j].getActivationFunction().derivatedOutput(layer[j].value(),layer[j].output());
 		}
 	}
 }
--- a/src/NeuralNetwork/Learning/QuickPropagation.cpp
+++ b/src/NeuralNetwork/Learning/QuickPropagation.cpp
@@ -14,22 +14,29 @@ void NeuralNetwork::Learning::QuickPropagation::updateWeights(const std::vector<
 		for(std::size_t j=1;j<layerSize;j++)  {
-			//TODO: is this correct??
+			float newChange=slopes[layerIndex][j]/(previousSlopes[layerIndex][j]-slopes[layerIndex][j]) * lastWeightChange[layerIndex][j];
 			float delta=deltas[layerIndex][j]/(deltasPrev[layerIndex][j]-deltas[layerIndex][j]);
-			deltas[layerIndex][j]=delta;
+			// according to original paper
 			newChange+= slopes[layerIndex][j]*_epsilon;
-			layer[j].weight(0)+=delta;
+			if(newChange > lastWeightChange[layerIndex][j]*_maxChange) {
 				newChange=lastWeightChange[layerIndex][j];
 			}
 			weightChange[layerIndex][j]=newChange;
 			layer[j].weight(0)+=newChange;
 			for(std::size_t k=1;k<prevLayerSize;k++) {
 				if(layerIndex==1) {
-					layer[j].weight(k)+=delta*input[k-1];
+					layer[j].weight(k)+=newChange*(input[k-1]);
 				} else {
-					layer[j].weight(k)+=delta*prevLayer[k].output();
+					layer[j].weight(k)+=newChange*(prevLayer[k].output());
 				}
 			}
 		}
 	}
-	deltas.swap(deltasPrev);
+	slopes.swap(previousSlopes);
 	weightChange.swap(lastWeightChange);
 }