Power-Saving Geographic Routing in the Presence of Location Errors

Abstract

Existing power efficient geographic routing algorithms have been shown to be able to reduce power consumption and hence prolong the lifetime of multi-hop wireless networks. However, in practical deployment scenarios where location errors inevitably exist, these algorithms are vulnerable to a substantial performance degradation in terms of energy consumption. Since location errors always exist no matter which localization technique is used, there is the need of a geographic routing protocol which can tolerate location errors and achieve reduced energy consumption. In this paper, we study the optimal distance of existing power-saving geographic routing algorithms. Through incorporating location errors into an objective function, we propose a novel geographic routing algorithm. Extensive performance evaluations show that our proposal is robust to location errors, thus statistically minimizing consumed transmit power as a packet is relayed from source to destination.