I am looking for a method to find the best parameters for a simulation. It's about break-shots in billiards / pool. A shot is defined by 7 parameters, I can simulate the shot and then rate the outcome and I would like to compute the best parameters.
I have found the following link here: Multiple parameter optimization with lots of local minima suggesting 4 kinds of algorithms. In the pool simulator I am using, the shots are altered by a little random value each time it is simulated. If I simulate the same shot twice, the outcome will be different. So I am looking for an algorithm like the ones in the link above, only with the addition of a stochastical element, optimizing for the 7 parameters that will on average yield the best parameters, i.e. a break shot that most likely will be a success. My initial idea was simulating the shot 100 or 1000 times and just take the average as rating for the algorithms above, but I still feel like there is a better way. Does anyone have an idea?
The 7 parameters are continuous but within different ranges (one from 0 to 10, another from 0.0 to 0.028575 and so on).