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On the minimum routing cost clustered tree problem

Chen-Wan Lin and Bang Ye Wu ()
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Chen-Wan Lin: National Chung Cheng University
Bang Ye Wu: National Chung Cheng University

Journal of Combinatorial Optimization, 2017, vol. 33, issue 3, No 18, 1106-1121

Abstract: Abstract For an edge-weighted graph $$G=(V,E,w)$$ G = ( V , E , w ) , in which the vertices are partitioned into k clusters $$\mathcal {R}=\{R_1,R_2,\ldots ,R_k\}$$ R = { R 1 , R 2 , … , R k } , a spanning tree T of G is a clustered spanning tree if T can be cut into k subtrees by removing $$k-1$$ k - 1 edges such that each subtree is a spanning tree for one cluster. In this paper, we show the inapproximability of finding a clustered spanning tree with minimum routing cost, where the routing cost is the total distance summed over all pairs of vertices. We present a 2-approximation for the case that the input is a complete weighted graph whose edge weights obey the triangle inequality. We also study a variant in which the objective function is the total distance summed over all pairs of vertices of different clusters. We show that the problem is polynomial-time solvable when the number of clusters k is 2 and NP-hard for $$k=3$$ k = 3 . Finally, we propose a polynomial-time 2-approximation algorithm for the case of three clusters.

Keywords: Approximation algorithm; NP-hard; Spanning tree; Graph algorithm (search for similar items in EconPapers)
Date: 2017
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DOI: 10.1007/s10878-016-0026-8

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