Title :
Design and evaluation of lightweight IEEE 802.11p-based TDMA MAC method for road side -to-vehicle communications
Author :
Saeed, Rashid A. ; Naemat, Amran ; Bin Aris, A. ; Bin Awang, M.K.
Author_Institution :
Access Network Technol., Malaysia
Abstract :
Wireless vehicular communications (WVC) has been identified as a key technology for intelligent transportation systems (ITS) for a few years ago. IEEE 802.11p is the proposed standard for physical and MAC layer of WVC devices. The main objective of the standard is to change the frame format and increase delay spread tolerance introduced by vehicle mobility, in which the channel bandwidth is scaled from 20 MHz i.e.802.11a to 10 MHz i.e. 802.11p. This paper proposes TDMA technique with fixed time slots and guard band between slots to ensure interoperability between wireless devices communicate in rapidly changing environment where transactions must be completed in small timeframe. The new TDMA sub-layer is proposed to be on-top of the conventional 802.11p MAC. The simulation results present the performance analysis and validate the efficiency of the proposed scheme.
Keywords :
automated highways; open systems; performance evaluation; time division multiple access; wireless LAN; MAC layer; TDMA sublayer; TDMA technique; WVC devices; channel bandwidth; delay spread tolerance; intelligent transportation systems; interoperability; lightweight IEEE 802.11p-based TDMA MAC method; performance analysis; road side -to-vehicle communications; vehicle mobility; wireless devices; wireless vehicular communications; Bandwidth; Communication standards; Delay; FCC; Intelligent transportation systems; Roads; Time division multiple access; Vehicles; Wireless LAN; Wireless communication; ITS; TDMA; wireless vehicular communication (WVC);
Conference_Titel :
Advanced Communication Technology (ICACT), 2010 The 12th International Conference on
Conference_Location :
Phoenix Park
Print_ISBN :
978-1-4244-5427-3
