最大化网络系统发育多样性

arXiv - CS - Computational Complexity Pub Date : 2024-05-02 DOI:arxiv-2405.01091

Leo van Iersel, Mark Jones, Jannik Schestag, Celine Scornavacca, Mathias Weller

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引用次数: 0

摘要

网络系统发育多样性（Network-PD）是基于描述一组物种进化的有根系统发育网络（分支长度和网状边缘的遗传概率）来衡量这些物种的多样性。我们考虑的是\textsc{Max-Network-PD}问题：给定这样一个网络，找出具有最大网络-PD得分的~$k$物种。我们通过描述一种运行时间为$\mathcal{O}(2^r \log(k)(n+r))$~time 的最优算法（其中~$n$为网络中物种的总数，~$r$为其网状结构数），证明这个问题对于二元网络来说是固定参数可处理的（FPT）。此外，我们还证明了对于 1 级网络，textsc{Max-Network-PD} 是 NP-困难的，从而证明除非 P$=$NP，否则 FPT 方法不能通过使用级别作为参数而不是网状数来扩展。

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Maximizing Network Phylogenetic Diversity

Network Phylogenetic Diversity (Network-PD) is a measure for the diversity of a set of species based on a rooted phylogenetic network (with branch lengths and inheritance probabilities on the reticulation edges) describing the evolution of those species. We consider the \textsc{Max-Network-PD} problem: given such a network, find~$k$ species with maximum Network-PD score. We show that this problem is fixed-parameter tractable (FPT) for binary networks, by describing an optimal algorithm running in $\mathcal{O}(2^r \log (k)(n+r))$~time, with~$n$ the total number of species in the network and~$r$ its reticulation number. Furthermore, we show that \textsc{Max-Network-PD} is NP-hard for level-1 networks, proving that, unless P$=$NP, the FPT approach cannot be extended by using the level as parameter instead of the reticulation number.

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arXiv - CS - Computational Complexity

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