The Unbounded Integrality Gap of a Semidefinite Relaxation of the Traveling Salesman Problem
October 23, 2017 Β· Declared Dead Β· π SIAM Journal on Optimization
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Authors
Samuel C. Gutekunst, David P. Williamson
arXiv ID
1710.08455
Category
cs.DS: Data Structures & Algorithms
Cross-listed
cs.DM,
math.OC
Citations
5
Venue
SIAM Journal on Optimization
Last Checked
4 months ago
Abstract
We study a semidefinite programming relaxation of the traveling salesman problem introduced by de Klerk, Pasechnik, and Sotirov [8] and show that their relaxation has an unbounded integrality gap. In particular, we give a family of instances such that the gap increases linearly with $n$. To obtain this result, we search for feasible solutions within a highly structured class of matrices; the problem of finding such solutions reduces to finding feasible solutions for a related linear program, which we do analytically. The solutions we find imply the unbounded integrality gap. Further, they imply several corollaries that help us better understand the semidefinite program and its relationship to other TSP relaxations. Using the same technique, we show that a more general semidefinite program introduced by de Klerk, de Oliveira Filho, and Pasechnik [7] for the $k$-cycle cover problem also has an unbounded integrality gap.
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