Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am learning how to implement a simple feedforward neural network. I have three layers with 2 input, 2 hidden and 1 output nodes, all with the Sigmoid activation, processing the simple XOR set. I've implemented iRPROP- (directly from the paper describing it) for the time being but I plan to switch to iRPROP+ once I have the solution working. So far, I have been unable to get the (mean squared) error rate to come to a usable range - it seems to always climb up to 0.5 and then get stuck there.

My current issue is with gradients. The research I've done leads me to two major sources, the work of Microsoft researcher James McCaffrey and the author of a few AI book, Jeff Heaton. Their work seem to contradict each other on the number of gradients that I need. James McCaffery in this document states that there is a single gradient per computational node (hidden and output). While Jeff Heaton, in this video as well as his top listed book on Amazon "Introduction to the Math of Neural Networks", claims that there is a gradient for each weight in a node. I have not been able to find another definitive source that talks specifically about gradients and how to calculate them. Even the original paper that talks about iRPROP seems ambiguous to how many gradients I need.


Q: What is the correct number of gradients required to work with iRPROP and what is the correct method to calculate them?


share|improve this question

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Browse other questions tagged or ask your own question.