DocumentCode
3262548
Title
Evaluating multi-hop beaconing forwarding strategies for IEEE 802.11p vehicular networks
Author
Librino, Federico ; Renda, M. Elena ; Santi, Paolo
Author_Institution
Ist. di Inf. e Telematica, Pisa, Italy
fYear
2013
fDate
16-18 Dec. 2013
Firstpage
31
Lastpage
38
Abstract
Multi-hop propagation of situational information is a promising technique for improving beaconing performance and increasing the degree of situational awareness onboard vehicles. However, limitation on beacon size prescribed by standardization bodies implies that only information about 3-4 surrounding vehicles can be piggybacked in a beacon packet. In most traffic situations, the number of vehicles within transmission range is much larger than 3-4, implying that multi-hop forwarding strategies must be devised to select which neighboring vehicle´s information to include in a transmitted beacon. In this paper, we investigate the effectiveness of different multi-hop forwarding strategies in delivering fresh situational information to surrounding vehicles. Effectiveness is estimated in terms of both average information age and probability of experiencing a situational-awareness blackout of at least 1 sec. Both metrics are estimated as a function of the hop distance from the transmitting vehicle. The investigation is based on extensive simulations whose multi-hop communication performance is corroborated by real-world measurements. The results show that network-coding based strategies substantially improve forwarding performance as compared to a randomized strategy, reducing the average information age of up to 60%, the blackout probability of two orders of magnitude, and providing a performance similar to that of an idealized strategy in which complete situational information is included in the beacon.
Keywords
mobile radio; network coding; probability; telecommunication standards; wireless LAN; IEEE 802.11p vehicular networks; beacon packet; blackout probability; forwarding performance; hop distance; multihop beaconing forwarding; multihop communication performance; multihop propagation; neighboring vehicle information; network coding; onboard vehicles; situational awareness blackout; situational information; Conferences; Network coding; OWL; Safety; Spread spectrum communication; Standardization; Vehicles;
fLanguage
English
Publisher
ieee
Conference_Titel
Vehicular Networking Conference (VNC), 2013 IEEE
Conference_Location
Boston, MA
Type
conf
DOI
10.1109/VNC.2013.6737587
Filename
6737587
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