Title :
Matrix Routing -- An Interference Range Insensitive Routing Protocol for Wireless Sensor Networks
Author :
Beuster, Monty ; Beigl, Michael ; Rohr, D. ; Riedel, Till ; Decker, Christian ; Berchtold, Martin
Author_Institution :
Distrib. & Ubiquitous Syst. Group, Tech. Univ. Braunschweig, Braunschweig
fDate :
July 28 2008-Aug. 1 2008
Abstract :
Interference ranges can dramatically affect the throughput in wireless sensor networks. While the transmission range defines the maximum physical range of a radio signal the interference range determines the area in which other nodes will be prevented from successful receiving or transmitting signals. In this paper we present an initial self organizing routing protocol for wireless sensor networks, named Matrix Routing, which is maximally insensitive even to high interference disturbances. Matrix routing is predictable, proactive but not table driven, needs minimum hardware and computational power and does not require transmission of routing packets. The protocol is characterized by zero overhearing costs and minimal idle listening. The paper shows a proof of concept, evaluates potential of our algorithm and discusses strength, limitations and application areas.
Keywords :
matrix algebra; radiofrequency interference; routing protocols; wireless sensor networks; interference disturbances; interference range; interference range insensitive routing protocol; matrix routing; minimal idle listening; radio signal; wireless sensor networks; zero overhearing costs; Computer networks; Hardware; IP networks; Organizing; Radio frequency; Radiofrequency interference; Routing protocols; Sensor phenomena and characterization; Throughput; Wireless sensor networks; Interference Range; Routing; Ubiquitous Computing; Wireless Sensor Networks;
Conference_Titel :
Applications and the Internet, 2008. SAINT 2008. International Symposium on
Conference_Location :
Turku
Print_ISBN :
978-0-7695-3297-4
DOI :
10.1109/SAINT.2008.47
