Paper ID: 2405.14273

A fast algorithm to minimize prediction loss of the optimal solution in inverse optimization problem of MILP

Akira Kitaoka

This paper tackles the problem of minimizing the prediction loss of the optimal solution (PLS) of the MILP with given data, which is one of the inverse optimization problems. While existing methods can approximately solve this problem, their implementation in the high-dimensional case to minimize the PLS is computationally expensive because they are inefficient in reducing the prediction loss of weights (PLW). We propose a fast algorithm for minimizing the PLS of MILP. To demonstrate this property, we attribute the problem of minimizing the PLS to that of minimizing the suboptimality loss (SL), which is convex. If the PLS does not vanish, we can adapt the SL to have the estimated loss (SPO loss) with a positive lower bound, which enables us to evaluate the PLW. Consequently, we prove that the proposed algorithm can effectively reduce the PLW and achieve the minimum value of PLS. Our numerical experiments demonstrated that our algorithm successfully achieved the minimum PLS. Compared to existing methods, our algorithm exhibited a smaller dimensionality effect and minimized the PLS in less than 1/7 the number of iterations. Especially in high dimensions, our algorithm significantly improved the PLS by more than two orders of magnitude compared to existing algorithms.

Submitted: May 23, 2024