How to create a custom neural network?

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Alexandra
Alexandra le 2 Juil 2013
Hello!
I am interested in creation of a neural network of the following type: https://www.dropbox.com/s/4x3yn8kchl84vm8/sketch.png this is prestructured network that mimics certain equation. So far i have difficulties with creation of network structure using network function for custom networks.
this is the code as i have it now (i decided to start with 3 inputs first): net=network; net.numInputs = 3; net.numLayers = 2; net.layers{1}.size = 3; net.layers{1}.initFcn = 'initnw'; net.layers{2}.size = 1; net.layers{2}.initFcn = 'initnw';
net.inputConnect(1,1)=1; net.inputConnect(1,2)=1; net.inputConnect(1,3)=1;
net.layerConnect(2,1)=1;
net.outputConnect(2) = 1;
net=init(net); view(net)
net.IW{1,1}=[1;0;0]; net.IW{1,2}=[0;1;0]; net.IW{1,3}=[0;0;1];
The problem is that view does not show the neurons and i cannot connect each of them to certain input. The other question is that in one layer i need neurons of different types (the custom activation function was already programmed). Is it possible to do? maybe it is easier to create 4 layers and connect them as i need?
Thank you in advance! All the answers are appreciated Alexandra

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Réponse acceptée

Greg Heath
Greg Heath le 6 Juil 2013
Although view.net shows the 3-input/4-layer network I wanted, I do not know how to tell train that there are 3 separate 1-dimensional inputs.
Therefore, keep the 4 layers but change to one 3-dimensional input. Attach input1 to layer 1 by zeroing out the input weights for input2 and input3; Similarly, attach input2 to layer 2 by zeroing out the weights for input1 and input3; etc
What you now want are
1 3-dimensional input
3 parallel hidden layers
1 output layer
4 biases
1 output
Each input component is connected to it's own hidden layer with it's
own transfer function.
Hope this helps.
Thank you for formally accepting my answer
Greg
  1 commentaire
Greg Heath
Greg Heath le 15 Juil 2013
Modifié(e) : Greg Heath le 15 Juil 2013
Vertically concatenate the inputs in a cell:
net = train( net,{input1; input2; input3}, output);

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Plus de réponses (1)

Greg Heath
Greg Heath le 4 Juil 2013
The diagram shows 3 neurons in the hidden layer and 1 neuron in the output layer. All transfer functions are 'purelin'. You have no biases.
What you want are
3 inputs
3 parallel hidden layers
1 output layer
4 biases
1 output
Each input is connected to it's own hidden layer with it's own transfer function.
Hope this helps.
Thank you for formally accepting my answer
Greg
  2 commentaires
Alexandra
Alexandra le 5 Juil 2013
thank you for answer! So, you suggest to make different layers instead of putting neurons with different activation functions into one layer. Is it possible in general? cause I think it may affect results after training and I am interested into weights defined by training. Now I have difficulties with training - it just does not converge (finished on number of epochs). I think it may be due to problems with custom activation function that I am using or due to the wrong choice of training algorithm. I would appreciate any other ideas.
Greg Heath
Greg Heath le 5 Juil 2013
Modifié(e) : Greg Heath le 6 Juil 2013
The idea I gave you is the simplest way to do it. if you are having trouble, show your code.
None of the MATLAB NNDATASETS are of the 3-input/1-output regression/curve-fitting type.
help nndatasets
So I will try it on the 2-input engine data set using only the first output.

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