我正在尝试训练一个3输入1输出神经网络(具有一个输入层,一个隐藏层和一个输出层),以在MATLAB中对二次项进行分类。我正在尝试实现前馈阶段,$ x_i ^ {out} = f(s_i)$,$ s_i = {\ sum} _ {\ substack {j \\}} w_ {ij} x_j ^ {in} $反向传播$ {\ delta} _j ^ {in} = f'(s_i){\ sum} _ {\ substack {j \\}} {\ delta} _i ^ {out} w_ {ij} $并更新$ w_ {ij} ^ {new} = w_ {ij} ^ {old}-\ epsilon {\ delta} _i ^ {out} x_j ^ {in} $,其中$ x $是输入向量,$ w $是体重和$ \ epsilon $是学习率。
我在编码隐藏层和添加激活函数$ f(s)= tanh(s)$时遇到了麻烦,因为网络输出中的错误似乎并未减少。有人可以指出我实施的错误吗?
输入是二次$ ax ^ 2 + bx + c = 0 $的实系数,如果二次有两个实根,则输出应为正,否则为负。
nTrain = 100; % training set
nOutput = 1;
nSecondLayer = 7; % size of hidden layer (arbitrary)
trainExamples = rand(4,nTrain); % independent random set of examples
trainExamples(4,:) = ones(1,nTrain); % set the dummy input to be 1
T = sign(trainExamples(2,:).^2-4*trainExamples(1,:).*trainExamples(3,:)); % The teacher provides this for every example
%The student neuron starts with random weights
w1 = rand(4,nSecondLayer);
w2 = rand(nSecondLayer,nOutput);
nepochs=0;
nwrong = 1;
S1(nSecondLayer,nTrain) = 0;
S2(nOutput,nTrain) = 0;
while( nwrong>1e-2 ) % more then some small number close to zero
for i=1:nTrain
x = trainExamples(:,i);
S2(:,i) = w2'*S1(:,i);
deltak = tanh(S2(:,i)) - T(:,i); % back propagate
deltaj = (1-tanh(S2(:,i)).^2).*(w2*deltak); % back propagate
w2 = w2 - tanh(S1(:,i))*deltak'; % updating
w1 = w1- x*deltaj'; % updating
end
output = tanh(w2'*tanh(w1'*trainExamples));
dOutput = output-T;
nwrong = sum(abs(dOutput));
disp(nwrong)
nepochs = nepochs+1
end
nepochs
谢谢
最佳答案
在将头撞到墙上几天后,我发现了一个小错字。下面是一个可行的解决方案:
clear
% Set up parameters
nInput = 4; % number of nodes in input
nOutput = 1; % number of nodes in output
nHiddenLayer = 7; % number of nodes in th hidden layer
nTrain = 1000; % size of training set
epsilon = 0.01; % learning rate
% Set up the inputs: random coefficients between -1 and 1
trainExamples = 2*rand(nInput,nTrain)-1;
trainExamples(nInput,:) = ones(1,nTrain); %set the last input to be 1
% Set up the student neurons for both hidden and the output layers
S1(nHiddenLayer,nTrain) = 0;
S2(nOutput,nTrain) = 0;
% The student neuron starts with random weights from both input and the hidden layers
w1 = rand(nInput,nHiddenLayer);
w2 = rand(nHiddenLayer+1,nOutput);
% Calculate the teacher outputs according to the quadratic formula
T = sign(trainExamples(2,:).^2-4*trainExamples(1,:).*trainExamples(3,:));
% Initialise values for looping
nEpochs = 0;
nWrong = nTrain*0.01;
Wrong = [];
Epoch = [];
while(nWrong >= (nTrain*0.01)) % as long as more than 1% of outputs are wrong
for i=1:nTrain
x = trainExamples(:,i);
S1(1:nHiddenLayer,i) = w1'*x;
S2(:,i) = w2'*[tanh(S1(:,i));1];
delta1 = tanh(S2(:,i)) - T(:,i); % back propagate
delta2 = (1-tanh(S1(:,i)).^2).*(w2(1:nHiddenLayer,:)*delta1); % back propagate
w1 = w1 - epsilon*x*delta2'; % update
w2 = w2 - epsilon*[tanh(S1(:,i));1]*delta1'; % update
end
outputNN = sign(tanh(S2));
delta = outputNN - T; % difference between student and teacher
nWrong = sum(abs(delta/2));
nEpochs = nEpochs + 1;
Wrong = [Wrong nWrong];
Epoch = [Epoch nEpochs];
end
plot(Epoch,Wrong);
关于matlab - 如何实现具有隐藏层的神经网络?,我们在Stack Overflow上找到一个类似的问题:https://stackoverflow.com/questions/10896649/