Paper Info
Title
Distributed Joint Optimization Routing Algorithm Based on the Analytic Hierarchy Process for Wireless Sensor Networks.
Abstract
As a crucial issue for routing algorithms in wireless sensor networks (WSNs), balancing energy consumption is a vital strategy to extend the network lifetime. Considering the node energy property or the node distance property, some conventional WSNs' routing algorithms unevenly distribute traffic over the nodes, which are not optimal to maximize the network lifetime. In this letter, a distributed joint optimization routing algorithm based on the analytic hierarchy process (DORAHP) is proposed to extend WSNs lifetime. The analytic hierarchy process is applied at the transmitter side to select the next hop node by defining three key decision criteria including the residual energy of the node, the distance from the node to the base station, and the degree of the node, which aims to extend WSNs lifetime through balancing energy consumption. At length, extensive simulation experiments for DORAHP are performed and compared with the LEACH, HEED, EERC, and GASONeC algorithms. The results indicate that DORAHP has superior performance on balancing energy consumption and on extending WSNs lifetime.
Year
DOI
Venue
2017
10.1109/LCOMM.2017.2756035
IEEE Communications Letters
Keywords
Field
DocType
Wireless sensor networks,Routing,Analytic hierarchy process,Energy consumption,Transmitters,Optimization
Transmitter,Base station,Key distribution in wireless sensor networks,Multiple-criteria decision analysis,Computer science,Computer network,Wireless sensor network,Energy consumption,Analytic hierarchy process,Routing algorithm,Distributed computing
Journal
Volume
Issue
ISSN
21
12
1089-7798
Citations 
PageRank 
References 
3
0.43
7
Authors
4
Name
Order
Citations
PageRank
Yuchao Chang140.78
Hongying Tang230.43
Baoqing Li311420.13
Xiaobing Yuan430.43