It would help immensely if you posted a code that could be cut, pasted, run, and yield a numerical answer. Then we could begin by matching our results with yours.
It would also help immensely if you replaced the loops with vectorized code.
Greg
Back propagation algorithm of Neural Network : XOR training
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c=0;
wih = .1*ones(nh,ni+1);
who = .1*ones(no,nh+1);
while(c<3000)
c=c+1;
for i = 1:length(x(1,:))
for j = 1:nh
netj(j) = wih(j,1:end-1)*double(x(:,i))+wih(j,end)*1;
outj(j) = 1./(1+exp(-1*netj(j)));
end
% hidden to output layer
for k = 1:no
netk(k) = who(k,1:end-1)*outj'+who(k,end)*1;
outk(k) = 1./(1+exp(-1*netk(k)));
delk(k) = outk(k)*(1-outk(k))*(t(k,i)-outk(k));
end
% back proagation for j = 1:nh s=0; for k = 1:no s = s+who(k,j)*delk(k); end
delj(j) = outj(j)*(1-outj(j))*s;
s=0;
end
for k = 1:no
for l = 1:nh
who(k,l)=who(k,l)+.5*delk(k)*outj(l);
end
who(k,l+1)=who(k,l+1)+1*delk(k)*1;
end
for j = 1:nh
for ii = 1:ni
wih(j,ii)=wih(j,ii)+.5*delj(j)*double(x(ii,i));
end
wih(j,ii+1)=wih(j,ii+1)+1*delj(j)*1;
end
end
end
// The code above, I have written it to implement back propagation neural network, x is input , t is desired output, ni , nh, no number of input, hidden and output layer neuron. I am testing this for different functions like AND, OR, it works fine for these. But XOR is not working.
// Training x = [0 0 1 1; 0 1 0 1] // Training t = [0 1 1 0]
// who -> weight matrix from hidden to output layer
// wih -> weight matrix from input to hidden layer
// Can you help ?
3 comentarios
Greg Heath
el 24 de En. de 2012
If you initialized weights randomly, you could see if it is
an initialization problem.
Have you noticed the loop accidentally included in the backpropagation comment?
Greg
Respuesta aceptada
Greg Heath
el 25 de En. de 2012
close all, clear all, clc
x = [0 0 1 1; 0 1 0 1]
t = [0 1 1 0]
[ni N] = size(x)
[no N] = size(t)
nh = 2
% wih = .1*ones(nh,ni+1);
% who = .1*ones(no,nh+1);
wih = 0.01*randn(nh,ni+1);
who = 0.01*randn(no,nh+1);
c = 0;
while(c < 3000)
c = c+1;
% %for i = 1:length(x(1,:))
for i = 1:N
for j = 1:nh
netj(j) = wih(j,1:end-1)*x(:,i)+wih(j,end);
% %outj(j) = 1./(1+exp(-netj(j)));
outj(j) = tansig(netj(j));
end
% hidden to output layer
for k = 1:no
netk(k) = who(k,1:end-1)*outj' + who(k,end);
outk(k) = 1./(1+exp(-netk(k)));
delk(k) = outk(k)*(1-outk(k))*(t(k,i)-outk(k));
end
% back propagation
for j = 1:nh
s=0;
for k = 1:no
s = s + who(k,j)*delk(k);
end
delj(j) = outj(j)*(1-outj(j))*s;
% %s=0;
end
for k = 1:no
for l = 1:nh
who(k,l) = who(k,l)+.5*delk(k)*outj(l);
end
who(k,l+1) = who(k,l+1)+1*delk(k)*1;
end
for j = 1:nh
for ii = 1:ni
wih(j,ii) = wih(j,ii)+.5*delj(j)*x(ii,i);
end
wih(j,ii+1) = wih(j,ii+1)+1*delj(j)*1;
end
end
end
h = tansig(wih*[x;ones(1,N)])
y = logsig(who*[h;ones(1,N)])
e = t-round(y)
Hope this helps.
Greg
5 comentarios
Shantanu Arya
el 10 de Sept. de 2020
Greg Heath, Why Doesn't this code work for 3 input XOR ?? If I replace the X and Y with 3 inputs then the error does not converge to 0 !!
Greg Heath
el 10 de Sept. de 2020
- I ALWAYS use the bipolar tanh in hidden layers. It ALWAYS works.
- What are x and t for 3 input XOR???
Greg
Más respuestas (5)
Greg Heath
el 27 de En. de 2012
It is well known that successful deterministic training depends on a lucky choice of initial weights. The most common approach is to use a loop and create Ntrial (e.g., 10 or more) nets from different random initial weights. Then choose the best net.
It is also well known that an odd bounded monotonically increasing activation function like TANSIG is the choice of preference for hidden layers because it does not restrict the polarity of the layer variables. It works even better when the input is shifted to have zero mean.
You can check the superiority of TANSIG and zero-mean yourself. You can also search the comp.ai.neural-nets FAQ and archives to find both agreement and numerical experiments.
For most real world problems the best choice for number of hidden nodes, H, is not known apriori. That is why I have posted many examples using a double loop: An outer loop over H and an inner loop over Ntrials random weight initializations. For examples, search the newsgroup using the keywords
heath clear Ntrials
Hope this helps.
Greg
3 comentarios
Imran Babar
el 6 de Mayo de 2013
Thank you very much a nice example of MLP BP NN and very easy to understand. Though I am a novice in this field but I am now clear in the programming idea
Havot Albeyboni
el 9 de Dic. de 2020
Editada: Havot Albeyboni
el 9 de Dic. de 2020
can anyone please explain this line ???
netj(j) = wih(j,1:end-1)*x(:,i)+wih(j,end);
shouldnt it be i.e ->> Y3=sigmoid(X1W13+ X2W23 - θ3 )
rgrds
Imran Babar
el 8 de Mayo de 2013
Dear sir I want to use the same code for the following data set
Input dataset=[1 1 1 2;1 1 2 2;1 2 2 2; 2 2 2 2] Output=[5 6 7 8]
but it is always generating output as given below
1 1 1 1
I tried my best but unable to understand how may I get these results
1 comentario
Greg Heath
el 10 de Mayo de 2013
Your outputs are not within the range of logsig.
Either normalize your outputs to fit in {0,1)
or
change your output activation function (e.g., 'purelin')
Sohel Ahammed
el 4 de Jul. de 2015
Ok. If i Want to test it, how i have to change. Ex: input : 1 0 expected output : 1 (From learing).
0 comentarios
dsmalenb
el 17 de Oct. de 2018
Am I missing something here but I don't see any bias neurons. Maybe this is why you are getting some inputs to work and others not?
5 comentarios
dsmalenb
el 17 de Oct. de 2018
I'm sorry but that statement does not make much sense to me. Biases are added to shift the values within the activation function. Multiplying by 1 does nothing.
Greg Heath
el 9 de Nov. de 2018
The 1 is a placeholder which is multiplied by a learned weight.
Hmm, I've been using that notation for decades and this is the 1st question re that that I can remember.
Greg
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