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Energy efficient clustering and routing optimization model for maximizing lifetime of wireless sensor network

TitleEnergy efficient clustering and routing optimization model for maximizing lifetime of wireless sensor network
Publication TypeJournal Article
Year of Publication2020
AuthorsSavitha, S., S. C. Lingareddy, and S. R. Chitnis
JournalInternational Journal of Electrical and Computer Engineering
Volume10
Issue5
Pagination4798 - 4808
Date Published2020
Type of ArticleArticle
ISBN Number20888708 (ISSN)
KeywordsComputer Science and Engineering, Scopus
Abstract

Recently, the wide adoption of WSNs (Wireless-Sensor-Networks) is been seen for provision non-real time and real-time application services such as intelligent transportation and health care monitoring, intelligent transportation etc. Provisioning these services requires energy-efficient WSN. The clustering technique is an efficient mechanism that playsa main role in reducing the energy consumption of WSN. However, the existing model is designed considering reducing energy- consumption of the sensor-device for the homogenous network. However, it incurs energy-overhead (EO) between cluster-head (CH). Further, maximizing coverage time is not considered by the existing clustering approach considering heterogeneous networks affecting lifetime performance. In order to overcome these research challenges, this work presents an energy efficient clustering and routing optimization (EECRO) model adopting cross-layer design for heterogeneous networks. The EECRO uses channel gain information from the physical layer and TDMA based communication is adopted for communication among both intra-cluster and inter-cluster communication. Further, clustering and routing optimization are presented to bring a good trade-off among minimizing the energy of CH, enhancing coverage time and maximizing the lifetime of sensor-network (SN). The experiments are conducted to estimate the performance of EECRO over the existing model. The significant-performance is attained by EECRO over the existing model in terms of minimizing routing and communication overhead and maximizing the lifetime of WSNs. Copyright © 2020 Institute of Advanced Engineering and Science. All rights reserved.

DOI10.11591/ijece.v10i5.pp4798-4808
Short TitleInt. J. Electr. Comput. Eng.