Hello,
I am looking to minimize two parameters, 
and 
, with the following minimization: I was recommended to do use the function fmincon to do this, but I'm having issues figuring out how to write the function "fun" as written on the documentation. Here is the function I have written: function S0 = signal_min(atti, bvals, lambdas)
if bvals(i, :) == b_unique(b)
bset_avg = zeros(X, Y, Z, length(b_set));
bset_avg = bset_avg + atti(:, :, slices(z), b_set(i));
S_avg = bset_avg./length(b_set);
S0 = S0 + (S_avg(x, y, slices(z)) - sm_signal(bvals(b), lambdas(0), lambdas(1)))^2;
function [signal] = sm_signal(bvalue, lambda_parallel, lambda_perpendicular)
signal = exp(cast(-bvalue*lambda_perpendicular, 'double'))...
*sqrt(pi/(cast(4*bvalue*(lambda_parallel - lambda_perpendicular), 'double')))...
*erf(sqrt(cast(bvalue*(lambda_parallel - lambda_perpendicular), 'double')));
And here is the error produced:
Not enough input arguments.
Error in smt_fmincon>signal_min (line 122)
Error in fmincon (line 552)
initVals.f = feval(funfcn{3},X,varargin{:});
Error in smt_fmincon (line 89)
[lambda, sigval] = fmincon(@signal_min, lambda0, C, d, Ceq, deq, lb, ub);
Failure in initial objective function evaluation. FMINCON cannot continue.
From how I have seen other functions for fmincon written, they seem like they're just supposed to be one line. What I can't figure is how to include the b-dependence in just one singular expression, as the purpose of the minimization is to minimize the squared residuals across all b's. That is to say, I don't want to minimize 
and then take the sum which is what I think I would be doing if I were to remove the for loop from inside signal_min, along the lines of below: fmincon(@signal_min, x0, C, d, Ceq, deq, lb, ub);
What do you suggest I do to work around this issue?
Many thanks,
Warren
