I'm working on creating a 2 layer neural network with back-propagation. The NN is supposed to get its data from a 20001x17 vector that holds following information in each row:

-The first 16 cells hold integers ranging from 0 to 15 which act as variables to help us determine which one of the 26 letters of the alphabet we mean to express when seeing those variables. For example a series of 16 values as follows are meant to represent the letter A: [2 8 4 5 2 7 5 3 1 6 0 8 2 7 2 7].

-The 17th cell holds a number ranging from 1 to 26 representing the letter of the alphabet we want. 1 stands for A, 2 stands for B etc.

The output layer of the NN consists of 26 outputs. Every time the NN is fed an input like the one described above it's supposed to output a 1x26 vector containing zeros in all but the one cell that corresponds to the letter that the input values were meant to represent. for example the output [1 0 0 ... 0] would be letter A, whereas [0 0 0 ... 1] would be the letter Z.

Some things that are important before i present the code: I need to use the traingdm function and the hidden layer number is fixed (for now) at 21.

Trying to create the above concept i wrote the following matlab code:

%Start of code%

%Initialize the input and target vectors
p = zeros(16,20001);
t = zeros(26,20001);

%Fill the input and training vectors from the dataset provided
for i=2:20001
    for k=1:16
        p(k,i-1) = data(i,k);
    t(data(i,17),i-1) = 1;

net = newff(minmax(p),[21 26],{'logsig' 'logsig'},'traingdm');

y1 = sim(net,p);

net.trainParam.epochs = 200;
net.trainParam.show = 1;
net.trainParam.goal = 0.1;
net.trainParam.lr = 0.8;
net.trainParam.mc = 0.2;
net.divideFcn = 'dividerand';
net.divideParam.trainRatio = 0.7;
net.divideParam.testRatio = 0.2;
net.divideParam.valRatio = 0.1;

%[pn,ps] = mapminmax(p);
%[tn,ts] = mapminmax(t);

net = init(net);
[net,tr] = train(net,p,t);

y2 = sim(net,pn);

%End of code%

Now to my problem: I want my outputs to be as described, namely each column of the y2 vector for example should be a representation of a letter. My code doesn't do that though. Instead it produced results that vary greatly between 0 and 1, values from 0.1 to 0.9.

My question is: is there some conversion i need to be doing that i am not? Meaning, do i have to convert my input and/or output data to a form by which i can actually see if my NN is learning correctly?

Any input would be appreciated.


This is normal. Your output layer is using a log-sigmoid transfer function, and that will always give you some intermediate output between 0 and 1.

What you would usually do would be to look for the output with the largest value -- in other words, the most likely character.

This would mean that, for every column in y2, you're looking for the index of the row that contains the largest value in that row. You can compute this as follows:

[dummy, I]=max(y2);

I is then a vector containing the indexes of the largest value in each row.

  • Martin, thanks for the response. Using max(y2) i can now atleast get some information on how many times the network was right on identifying the letters. What i did do however before feeding the network the data i have was scale it down so that 0<=p(x)<=1. Seeing as the minimum value of p was 0 and the maximum was 15 i made a new input vector scaledp = p/15. – sp. Aug 19 '09 at 9:45
  • You shouldn't use max as the activity function, because your error function should be defined over the activity not the activation, and max is non-differentiable, which means you can't use back-prop. You need softmax, see my answer below. – Ben Allison Mar 19 '13 at 11:25

You can think of y2 as an output probability distribution for each input being one of the 26 alphabet characters, for example if one column of y2 says:


then its 50% probability that this character is B (if we assume only 4 possible outputs).


The output layer of the NN consists of 26 outputs. Every time the NN is fed an input like the one described above it's supposed to output a 1x26 vector containing zeros in all but the one cell that corresponds to the letter that the input values were meant to represent. for example the output [1 0 0 ... 0] would be letter A, whereas [0 0 0 ... 1] would be the letter Z.

It is preferable to avoid using target values of 0,1 to encode the output of the network.
The reason for avoiding target values of 0 and 1 is that 'logsig' sigmoid transfer function cannot produce these output values given finite weights. If you attempt to train the network to fit target values of exactly 0 and 1, gradient descent will force the weights to grow without bound.
So instead of 0 and 1 values, try using values of 0.04 and 0.9 for example, so that [0.9,0.04,...,0.04] is the target output vector for the letter A.

Thomas M. Mitchell, Machine Learning, McGraw-Hill Higher Education, 1997, p114-115

  • I don't think that's correct. Each element of the output vector will have a value varying between 0.00 and 1.00 but the sum of any column (or any element in that column for that matter) will never actually represent a percentage. – sp. Aug 19 '09 at 9:50
  • you can always normalize it yourself: y2Normalized = y2 ./ repmat(sum(y2), 26, 1) – Amro Aug 22 '09 at 17:51
  • Alternatively you can use the difference between the highest value in y2 and the second highest value as a measure of confidence of the prediction. – Amro Aug 22 '09 at 18:11
  • IT's definitely not a probability distribution unless you're using a probabilistic neural network. It's not really even a confidence value, depending on the algorithm you're using and how you trained it. – markwatson Apr 27 '11 at 18:20
  1. Use hardlin fcn in output layer.
    1. Use trainlm or trainrp for training the network.
    2. To learn your network, use a for loop and a condition that compare the output and target. When it is the best use, break to exit from the learning loop.
    3. Use another way instead of mapminmax for pre-processing data set.

I don't know if this constitutes an actual answer or not: but here are some remarks.

  • I don't understand your coding scheme. How is an 'A' represented as that set of numbers? It looks like you're falling into a fairly common trap of using arbitrary numbers to code categorical values. Don't do this: for example if 'a' is 1, 'b' is 2 and 'c' is 3, then your coding has implicitly stated that 'a' is more like 'b' than 'c' (because the network has real-value inputs the ordinal properties matter). The way to do this properly is to have each letter represented as 26 binary valued inputs, where only one is ever active, representing the letter.
  • Your outputs are correct, the activation at the output layer will not ever be either 0 or 1, but real numbers. You could take the max as your activity function, but this is problematic because it's not differentiable, so you can't use back-prop. What you should do is couple the outputs with the softmax function, so that their sum is one. You can then treat the outputs as conditional probabilities given the inputs, if you so desire. While the network is not explicitly probabilistic, with the correct activity and activation functions is will be identical in structure to a log-linear model (possibly with latent variables corresponding to the hidden layer), and people do this all the time.

See David Mackay's textbook for a nice intro to neural nets which will make clear the probabilistic connection. Take a look at this paper from Geoff Hinton's group which describes the task of predicting the next character given the context for details on the correct representation and activation/activity functions (although beware their method is non-trivial and uses a recurrent net with a different training method).

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