A 4/3-Approximation Algorithm for Half-Integral Cycle Cut Instances of the TSP

Billy Jin; Nathan Klein; David P. Williamson

A 4/3-Approximation Algorithm for Half-Integral Cycle Cut Instances of the TSP

Billy Jin, Nathan Klein, David P. Williamson

Published: 01 Jan 2023, Last Modified: 21 May 2024IPCO 2023EveryoneRevisionsBibTeXCC BY-SA 4.0

Abstract: A long-standing conjecture for the traveling salesman problem (TSP) states that the integrality gap of the standard linear programming relaxation of the TSP (sometimes called the Subtour LP or the Held-Karp bound) is at most 4/3 for symmetric instances of the TSP obeying the triangle inequality. In this paper we consider the half-integral case, in which a feasible solution to the LP has solution values in \(\{0, 1/2, 1\}\). Karlin, Klein, and Oveis Gharan [9], in a breakthrough result, were able to show that in the half-integral case, the integrality gap is at most 1.49993; Gupta et al. [6] showed a slight improvement of this result to 1.4983.

Loading