0

I am trying to solve a facility location problem, where I have a set of customers and a set of potential facility locations. Although, the traditional problem is linear, I transformed some constraints and now I have a non-linear problem.

I know there are non-linear optimization packages for python, such as SciPy, but I do not understand how I should iterate over large sets. Can I just use a for-loop to account for the summations? And how do I account for the 'for all i in I' and 'for all j in J' in the constraint as put in the following example?

Objective: Max: Z=∑_i ∑_j (d_i * p_ij * a_ij * y_j)

Subject to: p_ij=(u_ij * a_ij * y_j)/(∑_j (u_ij * a_ij * y_j)) ∀ i ∈ I, j ∈ J

y_j ∈ {0,1} ∀ j ∈ J

where I is the set of customers, and J is the set of potential facility locations. d, a, and u are given. p and y are defined by the model.

Can someone explain me how to use sets in SciPy? Or please send me an example code with this kind of optimization problem so I can see how it is done.

Thank you!

  • have you seen Google's OR tools? sounds like a problem that's better suited to that. the stated problem looks like a linear/combinatorial problem to me – Sam Mason Jan 21 at 17:46
  • Most or all SciPy solvers are for small problems only. Large scale, sparse solvers can handle much larger problems. Modeling tools can help with things likes sets, summations etc. – Erwin Kalvelagen Jan 22 at 12:49
  • Thanks for your replies. Sam Mason, I never worked with the Google OR tools before. I will have a look at it. @ErwinKalvelagen do you recommend any modeling tools for this problem? – user10945671 Jan 23 at 15:02
  • AMPL and GAMS come to mind. Btw, your math is confusing (j is used in two different ways), but I believe this model can be linearized. – Erwin Kalvelagen Jan 24 at 10:28

Your Answer

By clicking "Post Your Answer", you agree to our terms of service, privacy policy and cookie policy

Browse other questions tagged or ask your own question.