A more pointed question: What is the derivative of softmax to be used in my gradient descent?
This is more or less a research project for a course, and my understanding of NN is very/fairly limited, so please be patient :)
I am currently in the process of building a neural network that attempts to examine an input dataset and output the probability/likelihood of each classification (there are 5 different classifications). Naturally, the sum of all output nodes should add up to 1.
Currently, I have two layers, and I set the hidden layer to contain 10 nodes.
I came up with two different types of implementations
1) Logistic sigmoid for hidden layer activation, softmax for output activation
2) Softmax for both hidden layer and output activation
I am using gradient descent to find local maximums in order to adjust the hidden nodes' weights and the output nodes' weights. I am certain in that I have this correct for sigmoid. I am less certain with softmax (or whether I can use gradient descent at all), after a bit of researching, I couldn't find the answer and decided to compute the derivative myself and obtained softmax'(x) = softmax(x) - softmax(x)^2 (this returns an column vector of size n). I have also looked into the MATLAB NN toolkit, the derivative of softmax provided by the toolkit returned a square matrix of size nxn, where the diagonal coincides with the softmax'(x) that I calculated by hand; and I am not sure how to interpret the output matrix.
I ran each implementation with a learning rate of 0.001 and 1000 iterations of back propagation. However, my NN returns 0.2 (an even distribution) for all five output nodes, for any subset of the input dataset.
o I am fairly certain that my gradient of descent is incorrectly done, but I have no idea how to fix this.
o Perhaps I am not using enough hidden nodes
o Perhaps I should increase the number of layers
Any help would be greatly appreciated!
The dataset I am working with can be found here (processed Cleveland): http://archive.ics.uci.edu/ml/datasets/Heart+Disease