Open AccessDistributed Energy-Efficient Approaches for Connected Dominating Set Construction in Wireless Sensor Networks
Author(s) -
Najla Al-Nabhan,
Mznah AlRodhaan,
Abdullah AlDhelaan
Publication year - 2014
Publication title -
international journal of distributed sensor networks
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.324
H-Index - 53
eISSN - 1550-1477
pISSN - 1550-1329
DOI - 10.1155/2014/625061
Subject(s) - computer science , connected dominating set , wireless sensor network , distributed computing , routing (electronic design automation) , construct (python library) , computer network , topology control , efficient energy use , set (abstract data type) , distributed algorithm , wireless network , topology (electrical circuits) , key distribution in wireless sensor networks , wireless , algorithm , telecommunications , mathematics , combinatorics , minimum spanning tree , electrical engineering , programming language , engineering
Energy efficiency is one of the major issues in wireless sensor networks (WSNs) and their applications. Distributed techniques with low message and time complexities are expected in WSNs. Connected dominating sets (CDSs) have been widely used for virtual backbone construction in WSNs to control topology, facilitate routing, and extend network lifetime. Most of the existing CDS approaches suffer from a very poor approximation ratio, high time, and message complexities. This paper proposes two novel approaches for CDS distributed construction in WSNs. The proposed approaches are intended to construct a small CDS as well as allowing energy-efficient CDS construction and maintenance in WSNs. Simulation shows that our distributed approaches have an approximation factor of 7.5 to the optimal CDS. This approximation outperforms the existing distributed CDS construction algorithms.
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