Setting up linear optimization problem
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Hi,
I have two 100x1 arrays, X and Y. How do I set this linear problem to run using the optimization toolbox solver?
I want to find the minimum postive value of X, call it M, subject to these constraints:
(1) when the value of X is greater than M, a new variable, Z equals 1
(2) when the value of X is less than -M, the new variable Z equals -1
(3) if -M<X<M, then the new variuable Z equals 0.
I want to find the that maximizes the sum of Y*Z.
Any help would be appreciated!
IP
5 Comments
Walter Roberson
on 27 May 2022
When what value is greater than M?
Inna Pelloso
on 27 May 2022
Inna Pelloso
on 27 May 2022
Walter Roberson
on 27 May 2022
So only entries already in X are to be considered for M? Making it a discrete problem that you could answer by testing all positive values in X?
Inna Pelloso
on 27 May 2022
Accepted Answer
X=rand(100,1);
Y=rand(100,1);
timeit(@()doOptimization(X,Y))
function doOptimization(X,Y)
fun=@(M)objective(M,X,Y);
Xs=sort(X(:).');
n=numel(X);
Msamps=abs( interp1( Xs, linspace(1,n,2*n-1) ) ); %optimal M must be one of these
Fsamps=arrayfun(fun,Msamps);
Foptimal=max(Fsamps); %optimal objective
Moptimal=min( Msamps(Fsamps==Foptimal) ); %optimal M
end
function fval=objective(M,X,Y)
Z=(abs(X)>=M);
Z(X<-M)=-1;
fval = Y(:).'*Z(:);
end
2 Comments
Inna Pelloso
on 28 May 2022
Matt J
on 28 May 2022
I guess the optimizer can only take simple contraints.
It has nothing to do with the ability to implement constraints. Because your objective is piecewise constant, the above is what an optimizer would have to do anyway.
More Answers (1)
Since your vectors X and Y are of moderate size, don't use an optimization tool.
I think it's best to proceed as follows:
- Extract all positive entries of the X-vector.
2. For each of these x-values, calculate the Z vector and evaluate sum(Z*Y).
3. From the sums obtained, choose the maximum sum. If the maximum sum is only attained once, the
corresponding x-value is the solution. If there are several x-values with the maximum sum, choose the
smallest.
6 Comments
Inna Pelloso
on 27 May 2022
Edited: Inna Pelloso
on 27 May 2022
What you mention is akin to a brute force method, and not practical as I'm dealign with very large datasets.
I don't think an optimizer will be faster for a problem of this type, also with larger datasets, because what else can be done apart from testing all possible choices for M in X.
The problem as stated, is a generalization.
?
Inna Pelloso
on 28 May 2022
Edited: Inna Pelloso
on 28 May 2022
Walter Roberson
on 28 May 2022
I have a vectorized method mentally outlined that (if I have not overlooked something) would take time and memory proportional to numel(X) * numel(unique(abs(X)). It is not clear to me that any algorithm could improve the big-O() time but non-vectorized could probably improve the memory usage.
If there is a more time-efficient method it would probably require dynamic programming. There just might possibly be an approach that is numel(X) * log(numel(unique(abs(X)))
Inna Pelloso
on 28 May 2022
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