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The Journal of Supercomputing

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21-03-2023

Construction of node- and link-fault-tolerant virtual backbones in wireless networks

Authors: Jiarong Liang, Weijian Zeng, Xiaojiang Du

Published in: The Journal of Supercomputing | Issue 12/2023

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Abstract

In wireless sensor networks (WSNs), the virtual backbone (VB) consists of a subset of nodes, which are responsible for routing tasks. Fault-tolerant VBs are desirable for overcoming the effects of node or link failure in WSNs. Usually, a homogeneous WSN (VB) is abstracted as a unit disk graph (UDG) (connected dominating set(CDS)). This paper introduces the concept of a fault-tolerant CDS in a UDG called a ((2, 2), m)-CDS, which is different from a traditional fault-tolerant CDS ((k, m)-CDS). A ((2, 2), m)-CDS can still function even if one edge or one node fails, which implies that it possesses fault-tolerant properties for both nodes and edges, in contrast to traditional (k, m)-CDSs, which possess fault tolerance only for nodes. Then, we propose a \(5\alpha\)-approximation algorithm for computing a ((2, 2), m)-CDS, where \(\alpha\) is the performance ratio for computing a (2, m) -CDS, and analyze its time complexity. In simulations, we compare our algorithm with an existing algorithm for fault-tolerant CDS construction based on CDS size. From the simulations, we find that our algorithm outperforms its competitor in constructing a quality VB.

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Title: Construction of node- and link-fault-tolerant virtual backbones in wireless networks
Authors: Jiarong Liang
Weijian Zeng
Xiaojiang Du
Publication date: 21-03-2023
Publisher: Springer US
Published in: The Journal of Supercomputing / Issue 12/2023
Print ISSN: 0920-8542
Electronic ISSN: 1573-0484
DOI: https://doi.org/10.1007/s11227-023-05180-9

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