Computing Bounded-Degree Phylogenetic Roots of Disconnected Graphs
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概要
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The PHYLOGENETIC kTH ROOT PROBLEM (PRk) is the problem of finding a (phylogenetic) tree T from a given graph G = (V, E) such that (1) T has no degree-2 internal nodes, (2) the external nodes (i. e. leaves) of T are exactly the elements of V, and (3) (u, v) ∈ E if and only if the distance between u and v in tree T is at most k, where k is some fixed threshold k. Such a tree T, if exists, is called a phylogenetic kth root of graph G. The computational complexity of PRk is open, except for k ≤ 4. Recently, Chen et al. investigated PRk under a natural restriction that the maximum degree of the phylogenetic root is bounded from above by a constant. They presented a linear-time algorithm that determines if a given connected G has such a phylogenetic kth root, and if so, demonstrates one. In this paper, we supplement their work by presenting a linear-time algorithm for disconnected graphs.
- 一般社団法人情報処理学会の論文
- 2004-03-19
著者
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Chen Z‐z
Department Of Mathematical Sciences Tokyo Denki University
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CHEN Zhi-Zhong
Department of Mathematical Sciences, Tokyo Denki University
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Chen Zhi-zhong
Department Of Computer Science And Information Mathematics University Of Electro-communications
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Tsukiji Tatsuie
Department of Information Science, Tokyo Denki University
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Tsukiji T
Department Of Information Science Tokyo Denki University
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Tsukiji Tatsuie
Department Of Computer Science Tokyo Institute Of Technology
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