Title :
A location-based routing algorithm for vehicle to vehicle communication
Author :
Santos, R.A. ; Edwards, R.M. ; Seed, L.N. ; Edwards, A.
Author_Institution :
Sheffield Univ., UK
Abstract :
We present a location-based routing algorithm with cluster-based flooding for vehicle to vehicle communication. We consider a motorway environment with associated high mobility and contrast and compare position-based and non-position-based routing strategies, along with a limiting function for flood mechanisms in reactive ad-hoc protocols. The performance of dynamic source routing (DSR) and ad-hoc on-demand distance vector routing (AODV) for non-positional and location routing algorithm with cluster-based flooding (LORA_CBF) for positional algorithms are considered. Our proposed flooding limiting technique is compared with AODV and DSR by simulation. The mobility of the vehicles on a motorway using a microscopic traffic model developed in OPNET has been used to evaluate average route discovery (RD) time, end-to-end delay (EED), routing load, routing overhead, overhead, and delivery ratio.
Keywords :
ad hoc networks; routing protocols; telecommunication traffic; vehicles; ad-hoc ondemand distance vector routing; cluster-based flooding; dynamic source routing; end-to-end delay; flooding limiting technique; intervehicular data exchange; location-based routing algorithm; multihop wireless network; network traffic model; nonposition-based routing strategy; position-based routing strategy; positional algorithm; reactive ad-hoc protocol; route discovery time; routing overhead; routing protocol; unicast routing; vehicle to vehicle communication; Ad hoc networks; Clustering algorithms; Delay; Floods; Microscopy; Mobile communication; Routing protocols; Spread spectrum communication; Vehicle dynamics; Wireless sensor networks;
Conference_Titel :
Computer Communications and Networks, 2004. ICCCN 2004. Proceedings. 13th International Conference on
Print_ISBN :
0-7803-8814-3
DOI :
10.1109/ICCCN.2004.1401632
