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Fast FPT Algorithms for Computing Rooted Agreement Forests: Theory and Experiments (Extended Abstract*)

机译：用于计算根协议森林的快速FPT算法：理论与实验（扩展摘要*）

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We improve on earlier FPT algorithms for computing a rooted maximum agreement forest (MAF) or a maximum acyclic agreement forest (MAAF) of a pair of phylogenetic trees. Their sizes give the subtree-prune-and-regraft (SPR) distance and the hybridization number of the trees, respectively. We introduce new branching rules that reduce the running time of the algorithms from O(3~k n) and O(3~k nlogn) to O(2.42~k n) and O(2.42~k nlogn), respectively. In practice, the speed up may be much more than predicted by the worst-case analysis. We confirm this intuition experimentally by computing MAFs for simulated trees and trees inferred from protein sequence data. We show that our algorithm is orders of magnitude faster and can handle much larger trees and SPR distances than the best previous methods, treeSAT and sprdist.

机译：我们改进了较早的FPT算法，以计算一对系统树的根均最大协议森林（MAF）或最大无环协议森林（MAAF）。它们的大小分别给出了子树修剪和嫁接（SPR）的距离以及树的杂交数量。我们引入了新的分支规则，分别将算法的运行时间从O（3〜k n）和O（3〜k nlogn）减少到O（2.42〜k n）和O（2.42〜k nlogn）。在实践中，速度提高可能远远超过最坏情况分析所预测的速度。我们通过计算模拟树和从蛋白质序列数据推断出的树的MAF，通过实验证实了这种直觉。我们表明，与以前的最佳方法treeSAT和sprdist相比，我们的算法要快几个数量级，并且可以处理更大的树木和SPR距离。

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《Experimental algorithms》|2010年|p.141-153|共13页
会议地点 Naples(IT);Naples(IT)
作者
Chris Whidden; Robert G. Beiko; Norbert Zeh;
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作者单位

Faculty of Computer Science, Dalhousie University, Halifax, Nova Scotia, Canada;

Faculty of Computer Science, Dalhousie University, Halifax, Nova Scotia, Canada;

Faculty of Computer Science, Dalhousie University, Halifax, Nova Scotia, Canada;

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正文语种 eng
中图分类软件工程;
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1. A Faster FPT Algorithm for the Maximum Agreement Forest Problem [J] . Michael Hallett, Catherine McCartin Theory of computing systems . 2007,第3期

机译：最大协议森林问题的更快FPT算法
2. A parameterized algorithm for the Maximum Agreement Forest problem on multiple rooted multifurcating trees [J] . Shi Feng, Chen Jianer, Feng Qilong, Journal of computer and system sciences . 2018,第NOVa期

机译：多根多叉树上最大协议森林问题的参数化算法
3. Improved approximation algorithm for maximum agreement forest of two rooted binary phylogenetic trees [J] . Shi Feng, Feng Qilong, You Jie, Journal of combinatorial optimization . 2016,第1期

机译：改进的近似算法，用于两棵有根二元系统树的最大一致性森林
4. Fast FPT Algorithms for Computing Rooted Agreement Forests: Theory and Experiments (Extended Abstract) [C] . Chris Whidden, Robert G. Beiko, Norbert Zen International Symposium on Experimental Algorithms . 2010

机译：用于计算生根协议森林的快速FPT算法：理论与实验（扩展摘要）
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Fast FPT Algorithms for Computing Rooted Agreement Forests: Theory and Experiments (Extended Abstract*)

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