Title :
Bit-Rate Selection in Multi-vehicular Networks
Author :
Giyeong Son ; Ward, Paul A. S.
Author_Institution :
SC Solutions, Samsung SDS, Seoul, South Korea
Abstract :
IEEE 802.11 PHY supports multiple transmission rates, varying from as low as 1 Mbps in 802.11b, up to 54 Mbps in 802.11g, and higher in 802.11n, with each Wi-Fi station selecting its transmission rate according to its own algorithm. The per-packet fairness scheme adopted by the 802.11 MAC reduces the effective throughput to that of the lowest sending rate. In multi-vehicle opportunistic downloading scenarios the communicating nodes will achieve the maximum transmission rate at some point, therefore in such scenarios the preferred bit-rate selection algorithm is: transmit at the highest bit rate or remain silent. We have implemented this policy and our experimental evaluation demonstrates that there is only a small loss in throughput in single-vehicle scenarios, while throughput is approximately 15% higher than the best alternative in multi-vehicle scenarios, with significantly less contention, and thus loss, on the medium.
Keywords :
mobile radio; radio transmitters; wireless LAN; IEEE 802.11 MAC standard; IEEE 802.11 PHY standard; IEEE 802.11b standard; IEEE 802.11g standard; IEEE 802.11n standard; Wi-Fi station selection; bit-rate selection algorithm; multiple transmission rate; multivehicle opportunistic downloading scenario; multivehicular network; per-packet fairness scheme; single-vehicle scenario; Bit rate; Error analysis; IEEE 802.11 Standards; Mobile communication; Probes; Throughput; Vehicles; 802.11; Drive-by download; Vehicular Networks;
Conference_Titel :
Advanced Information Networking and Applications (AINA), 2013 IEEE 27th International Conference on
Conference_Location :
Barcelona
Print_ISBN :
978-1-4673-5550-6
Electronic_ISBN :
1550-445X
DOI :
10.1109/AINA.2013.150
