Open AccessLocation independent compact routing for wireless networks
Author(s) -
Robert Gilbert,
K. Jeffrey Johnson,
S. Alice Wu,
Ben Y. Zhao,
Hai-Tao Zheng
Publication year - 2006
Publication title -
citeseer x (the pennsylvania state university)
Language(s) - English
Resource type - Conference proceedings
ISBN - 1-59593-558-4
DOI - 10.1145/1161252.1161267
Subject(s) - computer network , dynamic source routing , computer science , wireless routing protocol , link state routing protocol , zone routing protocol , routing protocol , static routing , distributed computing , optimized link state routing protocol , ad hoc on demand distance vector routing , destination sequenced distance vector routing , geographic routing , routing (electronic design automation)
While reactive routing protocols such as AODV operate efficiently for small ad hoc wireless networks, their O(N) perflow control overhead limits deployment on larger-scale networks. Deployment of compact routing protocols such as geographic routing have met with challenges. In this paper, we present Table Attenuation Routing Protocol (TARP), a protocol that combines compact per-node routing state with scalability to large networks. Preliminary evaluation shows that TARP performs similar to AODV in smaller networks and better in larger networks.
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