A Robust and Efficient Flooding-based Routing for Wireless Sensor Networks
Ying Zhang and Markus P.J. Fromherz
Abstract
Flooding protocols for wireless networks in general have been shown to
be very inefficient and therefore are mainly used in network
initialization or route discovery and maintenance. In this paper, we
propose a framework of constrained flooding protocols. The framework
incorporates a reinforcement learning kernel, a differential delay
mechanism, and a constrained and probabilistic retransmission policy.
This type of protocol takes the advantages of robustness from
flooding, but maintains energy efficiency by constraining
retransmissions. Without the use of any control packets, such a
protocol adapts to the specific routing requirements of the task and
the dynamic changes of the network. We analyze this framework in
simulation using some real-world applications in sensor networks.
© 2006 World Scientific Publishing Company
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