Capacitated Vehicle Routing in Graphic Metrics
Abstract
We study the capacitated vehicle routing problem in graphic metrics (graphic CVRP). Our main contribution is a new lower bound on the cost of an optimal solution. For graphic metrics, this lower bound is tight and significantly stronger than the well-known bound for general metrics. The proof of the new lower bound is simple and combinatorial. Using this lower bound, we analyze the approximation ratio of the classical iterated tour partitioning algorithm combined with the TSP algorithms for graphic metrics of Christofides [1976], of M\"omke-Svensson [JACM 2016], and of Sebo-Vygen [Combinatorica 2014]. In particular, we obtain a 1.95-approximation for the graphic CVRP.
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