Title :
Cooperative Adaptive Cruise Control in Real Traffic Situations
Author :
Milanes, Vicente ; Shladover, Steven E. ; Spring, J. ; Nowakowski, Christopher ; Kawazoe, Hiroshi ; Nakamura, Mitsutoshi
Author_Institution :
Inst. of Transp. Studies, Univ. of California Berkeley, Richmond, CA, USA
Abstract :
Intelligent vehicle cooperation based on reliable communication systems contributes not only to reducing traffic accidents but also to improving traffic flow. Adaptive cruise control (ACC) systems can gain enhanced performance by adding vehicle-vehicle wireless communication to provide additional information to augment range sensor data, leading to cooperative ACC (CACC). This paper presents the design, development, implementation, and testing of a CACC system. It consists of two controllers, one to manage the approaching maneuver to the leading vehicle and the other to regulate car-following once the vehicle joins the platoon. The system has been implemented on four production Infiniti M56s vehicles, and this paper details the results of experiments to validate the performance of the controller and its improvements with respect to the commercially available ACC system.
Keywords :
adaptive control; automobiles; intelligent transportation systems; motion control; radiocommunication; road accidents; road traffic control; CACC system; Infiniti M56s vehicles; car-following; cooperative ACC; cooperative adaptive cruise control; intelligent vehicle cooperation; maneuver controllers; range sensor data; real traffic situations; reliable communication systems; traffic accidents; traffic flow; vehicle-vehicle wireless communication; Acceleration; Control systems; Mathematical model; Production; Stability analysis; Vehicle dynamics; Vehicles; Adaptive cruise control (ACC); connected vehicles; cooperative ACC (CACC); cooperative vehicles; intelligent driving; intelligent transportation systems (ITS);
Journal_Title :
Intelligent Transportation Systems, IEEE Transactions on
DOI :
10.1109/TITS.2013.2278494
