I have a question. I watched a really detailed tutorial on implementing an artificial neural network in C++. And now I have more than a basic understanding of how a neural network works and how to actually program and train one.
So in the tutorial a hyperbolic tangent was used for calculating outputs, and obviously its derivative for calculating gradients. However I wanted to move on to a different function. Specifically Leaky RELU (to avoid dying neurons).
My question is, it specifies that this activation function should be used for the hidden layers only. For the output layers a different function should be used (either a softmax or a linear regression function). In the tutorial the guy taught the neural network to be an XOR processor. So is this a classification problem or a regression problem?
I tried to google the difference between the two, but I can't quite grasp the category for the XOR processor. Is it a classification or a regression problem? So I implemented the Leaky RELU function and its derivative but I don't know whether I should use a softmax or a regression function for the output layer.
Also for recalculating the output gradients I use the Leaky RELU's derivative(for now) but in this case should I use the softmax's/regression derivative as well?
Thanks in advance.
I tried to google the difference between the two, but I can't quite grasp the category for the XOR processor. Is it a classification or a regression problem?
In short, classification is for discrete target, regression is for continuous target. If it were a floating point operation, you had a regression problem. But here the result of XOR is 0
or 1
, so it's a binary classification (already suggested by Sid). You should use a softmax layer (or a sigmoid function, which works particularly for 2 classes). Note that the output will be a vector of probabilities, i.e. real valued, which is used to choose the discrete target class.
Also for recalculating the output gradients I use the Leaky RELU's derivative(for now) but in this case should I use the softmax's/regression derivative as well?
Correct. For the output layer you'll need a cross-entropy loss function, which corresponds to the softmax layer, and it's derivative for the backward pass. If there will be hidden layers that still use Leaky ReLu, you'll also need Leaky ReLu's derivative accordingly, for these particular layers.
Highly recommend this post on backpropagation details.