For the implementation of single layer neural network, I have two data files.
In: 0.832 64.643 0.818 78.843 Out: 0 0 1 0 0 1
The above is the format of 2 data files.
The target output is "1 for a particular class that the corresponding input belongs to and "0 for the remaining 2 outputs.
The problem is as follows:
Your single layer neural network will find A (3 by 2 matrix) and b (3 by 1 vector) in Y = A*X + b where Y is [C1, C2, C3]' and X is [x1, x2]'.
To solve the problem above with a neural network, we can re-write the equation as follow: Y = A' * X' where A' = [A b] (3 by 3 matrix) and X' is [x1, x2, 1]'
Now you can use a neural network with three input nodes (one for x1, x2, and 1 respectively) and three outputs (C1, C2, C3).
The resulting 9 (since we have 9 connections between 3 inputs and 3 outputs) weights will be equivalent to elements of A' matrix.
Basicaly, I am trying to do something like this, but it is not working:
function neuralNetwork load X_Q2.data load T_Q2.data x = X_Q2(:,1); y = X_Q2(:,2); learningrate = 0.2; max_iteration = 50; % initialize parameters count = length(x); weights = rand(1,3); % creates a 1-by-3 array with random weights globalerror = 0; iter = 0; while globalerror ~= 0 && iter <= max_iteration iter = iter + 1; globalerror = 0; for p = 1:count output = calculateOutput(weights,x(p),y(p)); localerror = T_Q2(p) - output weights(1)= weights(1) + learningrate *localerror*x(p); weights(2)= weights(1) + learningrate *localerror*y(p); weights(3)= weights(1) + learningrate *localerror; globalerror = globalerror + (localerror*localerror); end end
I write this function in some other file and calling it in my previous code.
function result = calculateOutput (weights, x, y) s = x * weights(1) + y * weights(2) + weights(3); if s >= 0 result = 1; else result = -1; end