On the Effect of Localization Errors on Geographic Face Routing in Sensor Networks (2004) [38 citations — 10 self]

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by Karim Seada

In IPSN’04: Proceedings of the third international symposium on Information processing in sensor networks

http://nile.usc.edu/~seada/LocInacc.pdf

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@INPROCEEDINGS{Seada04onthe,
    author = {Karim Seada},
    title = {On the Effect of Localization Errors on Geographic Face Routing in Sensor Networks},
    booktitle = {In IPSN’04: Proceedings of the third international symposium on Information processing in sensor networks},
    year = {2004},
    pages = {71--80},
    publisher = {ACM Press}
}

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Abstract:

In the absence of location errors, geographic routing- using a combination of greedy forwarding and face routing- has been shown to work correctly and efficiently. The effects of location errors on geographic routing have not been studied before. In this work we provide a detailed analysis of the effects of location errors on the correctness and performance of geographic routing in static sensor networks. First, we perform a micro-level behavioral analysis to identify the possible protocol error scenarios and their conditions and bounds. Then, we present results from an extensive simulation study of GPSR and GHT to quantify the performance degradation due to location errors. Our results show that even small location errors (of 10 % of the radio range or less) can in fact lead to incorrect (non-recoverable) geographic routing with noticeable performance degradation. We then introduce a simple modification for face routing that eliminates probable errors and leads to near perfect performance.

Citations

792	GPSR: Greedy perimeter stateless routing for wireless sensor networks – Karp, Kung - 2000
459	Geography-informed energy conservation for ad-hoc routing,” presented at the – Xu, Heidemann, et al. - 2001
457	Span: an energy-efficient coordination algorithm for topology maintenance in ad hoc wireless networks – Chen, Jamieson, et al. - 2002
404	Location systems for ubiquitous computing – Hightower, Boriello - 2001
258	A New Location Technique for the Active Office – Ward, Jones, et al. - 1997
161	Compass routing on geometric networks – Kranakis, Singh, et al. - 1999
160	GHT: a geographic hash table for data-centric storage – Ratnasamy, Karp, et al. - 2002
158	The relative neighborhood graph of finite planar set – Toussaint - 1980
156	Rangefree localization schemes for large scale sensor networks – He, Huang, et al. - 2003
147	A new statistical approach to geographic variation analysis. Systematic Zoology – Gabriel, Sokal - 1969
145	Geographic routing without location information – Rao, Ratnasamy, et al. - 2003
107	Worst-case optimal and average-case efficient geometric ad-hoc routing – Kuhn, Wattenhofer, et al. - 2003
46	DIFS: A distributed index for features in sensor networks – Greenstein, Estrin, et al. - 2003
43	Gem: graph embedding for routing and data-centric storage in sensor networks without geographic information – Newsome, Song - 2003
39	Self-configuring localization systems: Design and experimental evaluation – Bulusu, Heidemann, et al.
30	Routing with Guaranteed Delivery – Bose, Morin, et al. - 1999
15	Routing and Addressing – Finn - 1987
14	Challenges in Geographic Routing: Sparse Networks – Karp - 2001

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