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Recently I've posted many question s regarding a character recognition program that I am making. I thought I had it working fully until today. I think it has to do with my training of the network. What follows is an explanation of how I think the training and simulation procedure goes.

Give these two images

targets

enter image description here

inputs

enter image description here

I want to train the network to recognize the letter D. Note that before this is done, I've processed the images into a binary matrix. For training I use

[net,tr] = train(net,inputs,targets);

where instead of inputs I was targets because I want to train the network to recognize all the letters in the target image.

I then run

outputs = sim(net,inputs);

where inputs is the image with the letter "D", or an image with any other letter that is in ABCD. The basic premise here is that I want to train the network to recognized all the letters in ABCD, then choose any letter A, B, C, or D and see if the network recognizes this choosen letter.

Question:

Am I correct with the training procedure?

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1 Answer

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Well it greatly depends on how you implemented your neural network. Although regarding the question you're asking I guess you didn't implement it yourself but used some ready made API.

Anyways, you should first understand the tools you use before you use them (here neural networks).

A neural network takes an input and performs linear or non-linear transformations of the input and returns an output.

Inputs and outputs are always numeric values. However they may represent any kind of data.

Inputs can be:

  • Pixels of an image
  • Real valued or integer attributes
  • Categories
  • etc.

In your case the inputs are the pixels of your character images (your binary matrices).

Outputs can be:

  • Classes (if you're doing classification)
  • Values (if you're doing regression)
  • Next value in a time series (if you're doing time series prediction)

In your case, you're doing classification (predicting which character the inputs represent) so your output is a class.

For you to understand how the network is trained, I'll first explain how to use it once it's trained and then what it implies for the training phase.

So once you've trained you network, you will give it the binary matrix representing your image and it will output the class (the character) which will be (for example): 0 for A, 1 for B, 2 for C and 3 for D. In other words, you have:

  • Input: binary matrix (image)
  • Output: 0,1,2 or 3 (depending on which character the network recognizes in the image)

The training phase consists in telling the network which output you would like for each input.

The type of data used during the training phase is the same as the one being used in the "prediction phase". Hence, for the training phase:

  • Inputs: binary matrices [A,B,C,D] (One for each letter! Very important !)
  • Targets: corresponding classes [0,1,2,3]

This way, you're telling the network to learn that if you give it the image of A it should output 0, if you give it the image of B it should output 1, and so on.

Note: You were mistaken because you thought of the "inputs" as the inputs you wanted to give the network after the training phase, when they were actually the inputs given to the network during the training phase.

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Thanks @Dolma for the explanation. I tried training the network with an input of size 4x100 (each row is a letter in binary form) and a target of [0;1;2;3]. For the targets I had to make it the same size as the inputs. So I just repmat the target matrix 100 times in the column direction. The training worked but now if I was a matrix for the letter D (1x100) and run sim(), it gives an error "Input 1 size does not match net.inputs{1}.size". –  roldy May 5 '13 at 21:30
    
Well it looks from the error message like you should actually give the inputs and targets to the network in cell arrays. If X and T are your cell arrays then each cell X{i} (i in [1,4]) is a letter in binary form (1x100 matrix) and each cell T{i} (i in [1,4]) is the singleton matrix containing either 0,1,2 or 3. This way it should work and dimensions should match. –  Dolma May 5 '13 at 22:53
    
I'm still getting errors @Dolma. I convert my input matrix to a cell matrix so that it's 4x100 cell. My target data is target = [{0},{1},{2},{3}]. I still get the same error. I tried instead making targets a column of cells. –  roldy May 5 '13 at 23:38
    
No the input has to be a 1x4 cell array. Each cell is a 1x100 matrix. The target is also a 1x4 cell array and each of its cells is a 1x1 matrix (which is what you did). –  Dolma May 5 '13 at 23:49
    
If this doesn't work, then try using a 100x4 matrix for input, and a 1x4 matrix for the target. –  Dolma May 5 '13 at 23:51
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