Channel measurement and communication module for the Grand Cooperative Driving Challenge

• Main Authors: Bergh, Fredrik, Andersson, Johan
• Format: Others
• Language: English
• Published: Högskolan i Halmstad, Sektionen för Informationsvetenskap, Data– och Elektroteknik (IDE) 2011
• Subjects: Wireless communication; data communication; platooning; VANET; 802.11; 802.11p; CALM; GCDC; Grand Cooperative Driving Challenge; ad hoc; competition; vehicular network; vehicular ad hoc networks; ITS; intelligent transport systems; cooperative adaptive cruise control; Trådlös kommunikation; datakommunikation; tävling; kooperativ adaptiv farthållare; fordonsnätverk; fordon; intelligenta transportsystem
• Online Access: http://urn.kb.se/resolve?urn=urn:nbn:se:hh:diva-15329

Vehicular ad hoc networks (VANETs) are a hot topic in the intelligent transport system (ITS) area. The introduction of wireless communications between vehicles will enable many useful applications to enhance road traffic safety as well to increase efficiency. The standardization of IEEE 802.11p, being an amendment to IEEE 802.11 intended for VANETS, faces many challenges. In Europe a 30 MHz spectrum at 5.9 GHz have been dedicated for ITS and this spectrum has to be used to its full potential. For this reason this thesis compares a 20 MHz wide frequency channel with a 10 MHz wide through measurements using 802.11p hardware. The measurements were conducted on a highway with relative speeds of up to 240 km/h. The results from these initial measurements show that a 20 MHz channel does not perform worse than a 10 MHz channel despite the high relative speeds and large metal signs scattering the signals. What enabled this thesis to do the measurements was Halmstad University‟s participation in the Grand Cooperative Driving Challenge (GCDC) 2011. In GCDC nine teams mostly from Europe competed in having the vehicle that had the best behaviour in a platoon of vehicles using cooperative adaptive cruise control (CACC), the CACC algorithm controlled the vehicles‟ acceleration and breaking autonomously based on in-vehicle sensors and communicated messages between the vehicles in the platoon using 802.11p. This thesis implemented the communication part of Halmstad University‟s vehicle. The challenge was held in Helmond, Holland, May 14-15, 2011. Halmstad University‟s team finished in second place. === CoAct