I would like to use a genetic program (gp) to estimate the probability of an 'outcome' from an 'event'. To train the nn I am using a genetic algorithm.
So, in my database I have many events, with each event containing many possible outcomes.
I will give the gp a set of input variables that relate to each outcome in each event.
My questions is - what should the fitness function be in the gp be ????
For instance, right now I am giving the gp a set of input data (outcome input variables), and a set of target data (1 if outcome DID occur, 0 if outcome DIDN'T occur, with the fitness function being the mean squared error of the outputs and targets). I then take the sum of each output for each outcome, and divide each output by the sum (to give the probability). However, I know for sure that this is not the right way to be doing this.
For clarity, this is how I am CURRENTLY doing this:
I would like to estimate the probability of 5 different outcomes occurring in an event:
Outcome 1 - inputs = [0.1, 0.2, 0.1, 0.4] Outcome 1 - inputs = [0.1, 0.3, 0.1, 0.3] Outcome 1 - inputs = [0.5, 0.6, 0.2, 0.1] Outcome 1 - inputs = [0.9, 0.2, 0.1, 0.3] Outcome 1 - inputs = [0.9, 0.2, 0.9, 0.2]
I will then calculate the gp output for each input:
Outcome 1 - output = 0.1 Outcome 1 - output = 0.7 Outcome 1 - output = 0.2 Outcome 1 - output = 0.4 Outcome 1 - output = 0.4
The sum of the outputs for each outcome in this event would be: 1.80. I would then calculate the 'probability' of each outcome by dividing the output by the sum:
Outcome 1 - p = 0.055 Outcome 1 - p = 0.388 Outcome 1 - p = 0.111 Outcome 1 - p = 0.222 Outcome 1 - p = 0.222
Before you start - I know that these aren't real probabilities, and that this approach does not work !! I just put this here to help you understand what I am trying to achieve.
Can anyone give me some pointers on how I can estimate the probability of each outcome ? (also, please note my maths is not great)