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Communication Dans Un Congrès Année : 2019

Towards Improving Christofides Algorithm for Half-Integer TSP

Résumé

We study the traveling salesman problem (TSP) in the case when the objective function of the subtour linear programming relaxation is minimized by a half-cycle point: xe ∈ {0, 1 2 , 1} where the half-edges form a 2-factor and the 1-edges form a perfect matching. Such points are sufficient to resolve half-integer TSP in general and they have been conjectured to demonstrate the largest integrality gap for the subtour relaxation. For half-cycle points, the best-known approximation guarantee is 3 2 due to Christofides' famous algorithm. Proving an integrality gap of α for the subtour relaxation is equivalent to showing that αx can be written as a convex combination of tours, where x is any feasible solution for this relaxation. To beat Christofides' bound, our goal is to show that (3 2 −)x can be written as a convex combination of tours for some positive constant. Let ye = 3 2 − when xe = 1 and ye = 3 4 when xe = 1 2. As a first step towards this goal, our main result is to show that y can be written as a convex combination of tours. In other words, we show that we can save on 1-edges, which has several applications. Among them, it gives an alternative algorithm for the recently studied uniform cover problem. Our main new technique is a procedure to glue tours over proper 3-edge cuts that are tight with respect to x, thus reducing the problem to a base case in which such cuts do not occur.
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Dates et versions

hal-03101770 , version 1 (07-01-2021)

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Arash Haddadan, Alantha Newman. Towards Improving Christofides Algorithm for Half-Integer TSP. ESA 2019 - European Symposium on Algorithms, Sep 2019, Munich, Germany. ⟨10.4230/LIPIcs.ESA.2019.56⟩. ⟨hal-03101770⟩
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