Multi-objective Optimization (MOO) approach for sensor node placement in WSN

It is desirable to position sensor nodes in a Wireless Sensor Network (WSN) to be able to provide maximum coverage with minimum energy consumption. However, these two aspects are contradicting and quite impossible to solve the placement problem with a single optimal decision. Thus, a Multi-objective...

Full description

Saved in:
Bibliographic Details
Main Authors: Abidin H.Z., Din N.M., Jalil Y.E.
Other Authors: 52165115900
Format: Conference paper
Published: IEEE Computer Society 2023
Subjects:
Tags: Add Tag
No Tags, Be the first to tag this record!
Institution: Universiti Tenaga Nasional
id my.uniten.dspace-29371
record_format dspace
spelling my.uniten.dspace-293712023-12-28T12:12:48Z Multi-objective Optimization (MOO) approach for sensor node placement in WSN Abidin H.Z. Din N.M. Jalil Y.E. 52165115900 9335429400 55257996600 coverage energy multi-objective optimization sensor node placement Wireless Sensor Network Communication systems Energy utilization Sensor nodes Signal processing Wireless sensor networks Biologically inspired coverage energy Minimum energy consumption Objective functions Optimization techniques Sensor node placement Total energy consumption Multiobjective optimization It is desirable to position sensor nodes in a Wireless Sensor Network (WSN) to be able to provide maximum coverage with minimum energy consumption. However, these two aspects are contradicting and quite impossible to solve the placement problem with a single optimal decision. Thus, a Multi-objective Optimization (MOO) approach is needed to facilitate this. This paper studies the performance of a WSN sensor node placement problem solved with a new biologically inspired optimization technique that imitates the behavior of territorial predators in marking their territories with their odours known as Territorial Predator Scent Marking Algorithm (TPSMA). The simulation study is done for a single objective and multi-objective approaches. The MOO approach of TPSMA (MOTPSMA) deployed in this paper uses the minimum energy consumption and maximum coverage as the objective functions while the single objective approach TPSMA only considers maximum coverage. The performance of both approaches is then compared in terms of coverage ratio and total energy consumption. Simulation results show that the WSN deployed with the MOTPSMA is able to reduce the energy consumption although the coverage ratio is slightly lower than single approach TPSMA which only focuses on maximizing the coverage. � 2013 IEEE. Final 2023-12-28T04:12:48Z 2023-12-28T04:12:48Z 2013 Conference paper 10.1109/ICSPCS.2013.6723994 2-s2.0-84903830291 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84903830291&doi=10.1109%2fICSPCS.2013.6723994&partnerID=40&md5=6c43d9e582d8bb69f1b9199657939832 https://irepository.uniten.edu.my/handle/123456789/29371 6723994 IEEE Computer Society Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic coverage
energy
multi-objective optimization
sensor node placement
Wireless Sensor Network
Communication systems
Energy utilization
Sensor nodes
Signal processing
Wireless sensor networks
Biologically inspired
coverage
energy
Minimum energy consumption
Objective functions
Optimization techniques
Sensor node placement
Total energy consumption
Multiobjective optimization
spellingShingle coverage
energy
multi-objective optimization
sensor node placement
Wireless Sensor Network
Communication systems
Energy utilization
Sensor nodes
Signal processing
Wireless sensor networks
Biologically inspired
coverage
energy
Minimum energy consumption
Objective functions
Optimization techniques
Sensor node placement
Total energy consumption
Multiobjective optimization
Abidin H.Z.
Din N.M.
Jalil Y.E.
Multi-objective Optimization (MOO) approach for sensor node placement in WSN
description It is desirable to position sensor nodes in a Wireless Sensor Network (WSN) to be able to provide maximum coverage with minimum energy consumption. However, these two aspects are contradicting and quite impossible to solve the placement problem with a single optimal decision. Thus, a Multi-objective Optimization (MOO) approach is needed to facilitate this. This paper studies the performance of a WSN sensor node placement problem solved with a new biologically inspired optimization technique that imitates the behavior of territorial predators in marking their territories with their odours known as Territorial Predator Scent Marking Algorithm (TPSMA). The simulation study is done for a single objective and multi-objective approaches. The MOO approach of TPSMA (MOTPSMA) deployed in this paper uses the minimum energy consumption and maximum coverage as the objective functions while the single objective approach TPSMA only considers maximum coverage. The performance of both approaches is then compared in terms of coverage ratio and total energy consumption. Simulation results show that the WSN deployed with the MOTPSMA is able to reduce the energy consumption although the coverage ratio is slightly lower than single approach TPSMA which only focuses on maximizing the coverage. � 2013 IEEE.
author2 52165115900
author_facet 52165115900
Abidin H.Z.
Din N.M.
Jalil Y.E.
format Conference paper
author Abidin H.Z.
Din N.M.
Jalil Y.E.
author_sort Abidin H.Z.
title Multi-objective Optimization (MOO) approach for sensor node placement in WSN
title_short Multi-objective Optimization (MOO) approach for sensor node placement in WSN
title_full Multi-objective Optimization (MOO) approach for sensor node placement in WSN
title_fullStr Multi-objective Optimization (MOO) approach for sensor node placement in WSN
title_full_unstemmed Multi-objective Optimization (MOO) approach for sensor node placement in WSN
title_sort multi-objective optimization (moo) approach for sensor node placement in wsn
publisher IEEE Computer Society
publishDate 2023
_version_ 1806426429949214720