A routing strategy for non-cooperation wireless multi-hop ad hoc networks
Pages 169 - 174
Abstract
Choosing routes such that the network lifetime is maximized in a wireless network with limited energy resources is a major routing problem in wireless multi-hop ad hoc networks. In this paper, we study the problem where participants are rationally selfish and non-cooperative. By selfish we designate the users who are ready to tamper with their source-routing or next hop selection strategies in order to increase the total number of packets transmitted, but do not try to harm or drop packets of the other nodes. The problem therefore amounts to a non-cooperative game. In the works [9],[6],[8],[3], the authors show that the game admits Nash equilibria [7]. However, finding a Nash equilibrium for a normal game is computationally hard [5]. In this work, inspired by mixed-strategy equilibrium, we propose a simple local routing algorithm called MIxed Path Routing protocol (MiPR). Using analysis and simulations, we show that MiPR drives the system to an equilibrium state where selfish participants do not have incentive to deviate. Moreover, MiPR significantly improves the network lifetime as compared to original routing protocols.
References
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Index Terms
- A routing strategy for non-cooperation wireless multi-hop ad hoc networks
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Published In
December 2011
318 pages
ISBN:9781450307857
DOI:10.1145/2095697
- Conference Chair:
- Wenny Rahayu,
- General Chairs:
- Eric Pardede,
- Nguyen Duc Cuong,
- Program Chair:
- David Taniar
Copyright © 2011 ACM.
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Published: 05 December 2011
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MoMM '11
MoMM '11: The 9th International Conference on Advances in Mobile Computing & Multimedia
December 5 - 7, 2011
Ho Chi Minh City, Vietnam
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