Title :
An Intelligent V2I-Based Traffic Management System
Author :
Milanés, Vicente ; Villagrá, Jorge ; Godoy, Jorge ; Simó, Javier ; Pérez, Joshué ; Onieva, Enrique
Author_Institution :
Centre for Autom. & Robot., Madrid, Spain
fDate :
3/1/2012 12:00:00 AM
Abstract :
Vehicles equipped with intelligent systems designed to prevent accidents, such as collision warning systems (CWSs) or lane-keeping assistance (LKA), are now on the market. The next step in reducing road accidents is to coordinate such vehicles in advance not only to avoid collisions but to improve traffic flow as well. To this end, vehicle-to-infrastructure (V2I) communications are essential to properly manage traffic situations. This paper describes the AUTOPIA approach toward an intelligent traffic management system based on V2I communications. A fuzzy-based control algorithm that takes into account each vehicle´s safe and comfortable distance and speed adjustment for collision avoidance and better traffic flow has been developed. The proposed solution was validated by an IEEE-802.11p-based communications study. The entire system showed good performance in testing in real-world scenarios, first by computer simulation and then with real vehicles.
Keywords :
accident prevention; automated highways; collision avoidance; driver information systems; fuzzy control; radiocommunication; road accidents; road traffic control; road vehicles; AUTOPIA approach; IEEE-802.11p-based communications; accident prevention; collision avoidance; collision warning systems; fuzzy-based control algorithm; intelligent V2I-based traffic management system; lane-keeping assistance; road accidents; vehicle-to-infrastructure communications; Artificial intelligence; Delay; Quality of service; Roads; Safety; Vehicle dynamics; Vehicles; Data communication; road vehicles; traffic control; traffic management; vehicle-to-infrastructure (V2I) communication;
Journal_Title :
Intelligent Transportation Systems, IEEE Transactions on
DOI :
10.1109/TITS.2011.2178839
