On the stability of solutions to random optimization problems under small perturbations

Abstract

Consider the Euclidean traveling salesman problem with n random points on the plane. Suppose that one of the points is shifted to a new random location. This gives us a new optimal path. Consider such shifts for each of the n points. Do we get n very different optimal paths? In this article, we show that this is not the case - in fact, the number of truly different paths can be at most O(1) as n ∞. The proof is based on a general argument which allows us to prove similar stability results in a number of other settings, such as branching random walk, the Sherrington-Kirkpatrick model of mean-field spin glasses, the Edwards-Anderson model of short-range spin glasses, and the Wigner ensemble of random matrices.

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