GTRF: A Game Theory Approach for Regulating Node Behavior in Real-Time Wireless Sensor Networks

GTRF: A Game Theory Approach for Regulating Node Behavior in Real-Time Wireless Sensor Networks

The selfish behaviors of nodes (or selfish nodes) cause packet loss, network congestion or even void regions in real-time wireless sensor networks, which greatly decrease the network performance. Previous methods have focused on detecting selfish nodes or avoiding selfish behavior, but little attent...

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Main Authors: Chi Lin, Guowei Wu, Poria Pirozmand
Format: Article
Language:English
Published: MDPI AG 2015-06-01
Series:Sensors
Subjects:
wireless sensor network
real-time
fault tolerance
selfish behavior
game theory
Nash Equilibrium
Online Access:http://www.mdpi.com/1424-8220/15/6/12932
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spelling doaj-8f52adeadd374a36a010a7c52041ae772020-11-25T00:51:36ZengMDPI AGSensors1424-82202015-06-01156129321295810.3390/s150612932s150612932GTRF: A Game Theory Approach for Regulating Node Behavior in Real-Time Wireless Sensor NetworksChi Lin0Guowei Wu1Poria Pirozmand2School of Software, Dalian University of Technology, Road No. 8, Development Zone, Dalian 116620, ChinaSchool of Software, Dalian University of Technology, Road No. 8, Development Zone, Dalian 116620, ChinaSchool of Software, Dalian University of Technology, Road No. 8, Development Zone, Dalian 116620, ChinaThe selfish behaviors of nodes (or selfish nodes) cause packet loss, network congestion or even void regions in real-time wireless sensor networks, which greatly decrease the network performance. Previous methods have focused on detecting selfish nodes or avoiding selfish behavior, but little attention has been paid to regulating selfish behavior. In this paper, a Game Theory-based Real-time & Fault-tolerant (GTRF) routing protocol is proposed. GTRF is composed of two stages. In the first stage, a game theory model named VA is developed to regulate nodes’ behaviors and meanwhile balance energy cost. In the second stage, a jumping transmission method is adopted, which ensures that real-time packets can be successfully delivered to the sink before a specific deadline. We prove that GTRF theoretically meets real-time requirements with low energy cost. Finally, extensive simulations are conducted to demonstrate the performance of our scheme. Simulation results show that GTRF not only balances the energy cost of the network, but also prolongs network lifetime.http://www.mdpi.com/1424-8220/15/6/12932wireless sensor networkreal-timefault toleranceselfish behaviorgame theoryNash Equilibrium
collection DOAJ
language English
format Article
sources DOAJ
author Chi Lin
Guowei Wu
Poria Pirozmand
spellingShingle Chi Lin
Guowei Wu
Poria Pirozmand
GTRF: A Game Theory Approach for Regulating Node Behavior in Real-Time Wireless Sensor Networks
Sensors
wireless sensor network
real-time
fault tolerance
selfish behavior
game theory
Nash Equilibrium
author_facet Chi Lin
Guowei Wu
Poria Pirozmand
author_sort Chi Lin
title GTRF: A Game Theory Approach for Regulating Node Behavior in Real-Time Wireless Sensor Networks
title_short GTRF: A Game Theory Approach for Regulating Node Behavior in Real-Time Wireless Sensor Networks
title_full GTRF: A Game Theory Approach for Regulating Node Behavior in Real-Time Wireless Sensor Networks
title_fullStr GTRF: A Game Theory Approach for Regulating Node Behavior in Real-Time Wireless Sensor Networks
title_full_unstemmed GTRF: A Game Theory Approach for Regulating Node Behavior in Real-Time Wireless Sensor Networks
title_sort gtrf: a game theory approach for regulating node behavior in real-time wireless sensor networks
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2015-06-01
description The selfish behaviors of nodes (or selfish nodes) cause packet loss, network congestion or even void regions in real-time wireless sensor networks, which greatly decrease the network performance. Previous methods have focused on detecting selfish nodes or avoiding selfish behavior, but little attention has been paid to regulating selfish behavior. In this paper, a Game Theory-based Real-time & Fault-tolerant (GTRF) routing protocol is proposed. GTRF is composed of two stages. In the first stage, a game theory model named VA is developed to regulate nodes’ behaviors and meanwhile balance energy cost. In the second stage, a jumping transmission method is adopted, which ensures that real-time packets can be successfully delivered to the sink before a specific deadline. We prove that GTRF theoretically meets real-time requirements with low energy cost. Finally, extensive simulations are conducted to demonstrate the performance of our scheme. Simulation results show that GTRF not only balances the energy cost of the network, but also prolongs network lifetime.
topic wireless sensor network
real-time
fault tolerance
selfish behavior
game theory
Nash Equilibrium
url http://www.mdpi.com/1424-8220/15/6/12932
work_keys_str_mv AT chilin gtrfagametheoryapproachforregulatingnodebehaviorinrealtimewirelesssensornetworks
AT guoweiwu gtrfagametheoryapproachforregulatingnodebehaviorinrealtimewirelesssensornetworks
AT poriapirozmand gtrfagametheoryapproachforregulatingnodebehaviorinrealtimewirelesssensornetworks
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