A self-stabilizing 3-approximation for the maximum leaf spanning tree problem in arbitrary networks

Sayaka Kamei; Hirotsugu Kakugawa; Stéphane Devismes; Sébastien Tixeuil

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A self-stabilizing 3-approximation for the maximum leaf spanning tree problem in arbitrary networks

机译：任意网络中最大叶子生成树问题的自稳定3逼近

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The maximum leaf spanning tree (MLST) is a good candidate for constructing a virtual backbone in self-organized multihop wireless networks, but is practically intractable (NP-complete). Self-stabilization is a general technique that permits to recover from catastrophic transient failures in self-organized networks without human intervention.We propose a fully distributed self-stabilizing approximation algorithm for theMLST problem in arbitrary topology networks. Our algorithm is the first self-stabilizing protocol that is specifically designed to approximate an MLST. It builds a solution whose number of leaves is at least 1/3 of the maximum possible in arbitrary graphs. The time complexity of our algorithm is O(n~2) rounds.

机译：最大叶子生成树（MLST）是在自组织多跳无线网络中构建虚拟主干的理想候选者，但实际上很难处理（NP完全）。自稳定是一种允许自组织网络从灾难性瞬时故障中恢复而无需人工干预的通用技术。针对任意拓扑网络中的MLST问题，我们提出了一种完全分布式的自稳定近似算法。我们的算法是第一个专门设计为近似MLST的自稳定协议。它建立了一个解决方案，其叶子数至少是任意图中最大可能叶子数的1/3。我们算法的时间复杂度为O（n〜2）次。

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来源
《Journal of combinatorial optimization》 |2013年第3期|共30页
作者
Sayaka Kamei; Hirotsugu Kakugawa; Stéphane Devismes; Sébastien Tixeuil;
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正文语种 eng
中图分类最优化的数学理论;
关键词
Self-stabilization; Approximation; Maximum leaf spanning tree; Fault-tolerance;

机译：自稳定;近似;最大生叶树;容错;

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专利

1. A self-stabilizing 3-approximation for the maximum leaf spanning tree problem in arbitrary networks [J] . Sayaka Kamei, Hirotsugu Kakugawa, Stéphane Devismes, Journal of combinatorial optimization . 2013,第3期

机译：任意网络中最大叶子生成树问题的自稳定3逼近
2. Complexity of the maximum leaf spanning tree problem on planar and regular graphs [J] . Reich Alexander Theoretical computer science . 2016,第Null期

机译：平面图和规则图上最大叶子生成树问题的复杂性
3. Parallel strategic oscillation: an application to the maximum leaf spanning tree problem [J] . Jesús Sánchez-Oro, Borja Menéndez, Eduardo G. Pardo, Progress in Artificial Intelligence . 2016,第2期

机译：并行策略振荡：最大叶子生成树问题的应用
4. A Self-stabilizing 3-Approximation for the Maximum Leaf Spanning Tree Problem in Arbitrary Networks [C] . Sayaka Kamei, Hirotsugu Kakugawa, St6phane Devismes, Computing and combinatorics . 2010

机译：任意网络中最大叶子生成树问题的自稳定3逼近
5. Self-stabilizing minimum spanning tree construction on message-passing networks. [D] . Liang, Zhiying. 2002

机译：消息传递网络上的自稳定最小生成树构造。
6. Comparison of Leaf Life Span Photosynthesis and Defensive Traits Across Seven Species of Deciduous Broad-leaf Tree Seedlings [O] . SAWAKO MATSUKI, TAKAYOSHI KOIKE 2006

机译：七种落叶阔叶树种幼苗的叶片寿命光合作用和防御性状的比较
7. A Self-Stabilizing 3-Approximation for the Maximum Leaf Spanning Tree Problem in Arbitrary Networks [O] . Sayaka Kamei, Hirotsugu Kakugawa 2015

机译：任意网络中最大叶生成树问题的自稳定3逼近

A self-stabilizing 3-approximation for the maximum leaf spanning tree problem in arbitrary networks

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