Speaker Shayan Oveis Gharan
Host Madhu Sudan
Date recorded 8 January 2013
We design improved approximation algorithms for the following problem: given a graph G=(V,E), find the shortest tour that visits every vertex at least once. This problem is known as the graphic TSP. It is a special case of the metric traveling salesman problem when the underlying metric is defined by shortest path distances in G. The result improves on the 3/2-approximation algorithm due to Christofides.
Similar to Christofides, our algorithm finds a spanning tree whose cost is upper bounded by the optimum, then it adds the minimum cost perfect matching on the odd degree vertices of that tree. The main difference is in the selection of the spanning tree. Except in certain cases where the solution of LP is nearly integral, we select the spanning tree randomly by sampling from a maximum entropy distribution defined by the linear programming relaxation.
Despite the simplicity of the algorithm, the analysis builds on a variety of ideas such as properties of strongly Rayleigh measures from probability theory, graph theoretical results on the structure of near minimum cuts, and the integrality of the T-join polytope. Also, as a byproduct of our result, we show new properties of random spanning trees as well as new properties of the near minimum cuts of any graph, which may be of independent interest.
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