There will be no analytical solution.
- Write a function that for any given values or N and alpha, if you knew alpha, it could compute the sum of that series. This part is trivial. Just pretend you knew the value of alpha, passing it into your function.
- Then for any given value of P_FA, use fzero to solve for the value of alpha that yields the desired value of P_FA.
The general form of your function will look like:
function P_FA = PFAfun(alpha,N)
P_FA = stuff ;
end
You will need to fill in the stuff part. Easy code to write, and you need to do something, as this is your problem.
Now for any given values of N and P_FA, use fzero. The call will look like:
N_sol = ???
P_FA_sol = ???
alpha_start = ???
alphasol = fzero(@(alpha) PFAfun(alpha,N_sol) - P_FA_sol, alpha_start);
Here you need to fill in the values for N_sol and PFA_sol, since you know them. fzero will solve for a value of alpha, basedd ona starting value passed in for alpha_start. fzero will work better if you can provide TWO values as a vector in alpha_start, that you know contain the solution between them.
