Title :
Fractional Network-Based Control for Vehicle Speed Adaptation via Vehicle-to-Infrastructure Communications
Author :
Tejado, Ines ; Milanes, Vicente ; Villagra, Jorge ; Vinagre, Blas M.
Author_Institution :
Ind. Eng. Sch., Univ. of Extremadura, Badajoz, Spain
Abstract :
This paper addresses the problem of e-safety driving in urban areas, where the principal limiting factor is vehicle-to-vehicle or vehicle-to-infrastructure communications. Time-varying network-induced delays constitute the main concern of networked control systems since they may negatively affect the velocity control of a vehicle at low speeds and consequently cause an accident. A system to adapt the vehicle´s speed to avoid or mitigate possible accidents has been developed. In particular, gain scheduling is used in a local fractional-order proportional integral controller to compensate the effects of delay. Experimental results on a prototype Citroën vehicle in a real environment are presented, which demonstrate the effectiveness of the proposed system.
Keywords :
PI control; collision avoidance; compensation; delays; mobile radio; networked control systems; road accidents; road safety; road vehicles; time-varying systems; velocity control; Citroen vehicle; accident avoidance; accident mitigation; delay effect compensation; e-safety problem; fractional network-based control; gain scheduling; local fractional-order proportional integral controller; networked control systems; principal limiting factor; time-varying network-induced delays; vehicle speed adaptation; vehicle-to-infrastructure communications; vehicle-to-vehicle communications; velocity control; Control systems; Current measurement; Delay; Gain; Stability analysis; Vehicle dynamics; Vehicles; Adaptive control; delay effects; fractional calculus; networked control systems (NCSs); vehicle driving; vehicle safety; velocity control;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2012.2195494
