Physiker192 Commented:
why are you using an int to minimize your function? shouldn't you use the derivative??
Minimization of a integration function
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The given function is f(x)= 4+2x^2
The objective is to find the value of xa such that the following objective function is minimized.
Objective= min (int(f(x),0, xa))
Can you give me idea how to solve this in Matlab?
Answers (5)
Roger Stafford
on 15 Aug 2014
In general for minimization problems with constraints you should use 'fmincon'.
0 Comments
Roger Stafford
on 15 Aug 2014
There can be no finite minimum to this objective function. The more negative you make xa, the more the integral decreases. Minus infinity is the only reasonable answer. You don't need matlab to tell you that.
Image Analyst
on 15 Aug 2014
If xa were 0, then the integral would not cover any area and the area under the curve 4 + 2 * x^2 would be zero. That looks like it's the minimum the integral can be.
Alan Weiss
on 15 Aug 2014
fun = @(x)integral(@(t)t.*(t-2),0,x); % plot it to see how it looks
[themin,fval] = fmincon(fun,1,[],[],[],[],0,[]) % x lower bound of 0
Alan Weiss
MATLAB mathematical toolbox documentation
2 Comments
Beverly Chua
on 26 Oct 2017
Hi Alan,
I am trying to do optimization of a nonlinear objective function as well. However, my output equivalent to your "themin" above is not smooth when I try to plot it. I am trying to plot it with respect to time but it keeps spiking up and down. Is there a reason for this?
Thank you!
Alan Weiss
on 26 Oct 2017
Sorry, I do not exactly understand what you mean. It is possible that you are running into issues alluded to in Optimizing a Simulation or ODE, where an integration is a bit noisy because when you integrate over different regions the integration routine can choose different points, and that adds noise.
But I might misunderstand entirely.
Alan Weiss
MATLAB mathematical toolbox documentation
Matt J
on 15 Aug 2014
Edited: Matt J
on 16 Aug 2014
If the integrand is continuous, the unconstrained stationary points xu are those satisfying
f(xu)=0
If you add positivity constraints, a constrained local minimizer can be found by doing,
[xu,fval]=fzero(@(xu) f(xu), 0 );
if xu>=0 & abs(fval)<somethingsmall
xa= xu;
elseif xu<0 & f(0)>=0
xa=0;
else
warning 'Local min not found'
end
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