Abstract

We study the minimum-weight k-size cycle cover problem (Min-k-SCCP) of finding a partition of a complete weighted digraph into k vertex-disjoint cycles of minimum total weight. This problem is a natural generalization of the known traveling salesman problem (TSP) and has a number of applications in operations research and data analysis. We show that the problem is strongly NP-hard in the general case and preserves intractability even in the geometric statement. For the metric subclass of the problem, a 2-approximation algorithm is proposed. For the Euclidean Min-2-SCCP, a polynomial-time approximation scheme based on Arora’s approach is built.

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