Title :
Integrated longitudinal and lateral tire/road friction modeling and monitoring for vehicle motion control
Author :
Li, Li ; Wang, Fei-Yue ; Zhou, Qunzhi
Author_Institution :
Dept. of Syst. & Ind. Eng., Univ. of Arizona, Tucson, AZ
fDate :
3/1/2006 12:00:00 AM
Abstract :
A proper tire friction model is essential to model overall vehicle dynamics for simulation, analysis, or control purposes since a ground vehicle´s motion is primarily determined by the friction forces transferred from roads via tires. Motivated by the developments of high-performance antilock brake systems (ABSs), traction control, and steering systems, significant research efforts had been put into tire/road friction modeling during the past 40 years. In this paper, a review of recent developments and trends in this area is presented, with attempts to provide a broad perspective of the initiatives and multidisciplinary techniques for related research. Different longitudinal, lateral, and integrated tire/road friction models are examined. The associated friction-situation monitoring and control synthesis are discussed with a special emphasis on ABS design
Keywords :
braking; control system synthesis; friction; motion control; road vehicles; steering systems; traction; tyres; vehicle dynamics; antilock brake system; control synthesis; friction situation monitoring; integrated longitudinal model; lateral modelling; road friction; steering systems; tire friction; traction control; vehicle dynamics; vehicle motion control; Analytical models; Force control; Friction; Land vehicles; Monitoring; Motion analysis; Motion control; Road vehicles; Tires; Vehicle dynamics; Antilock brake systems (ABSs); steering control; tire/road friction identification; tire/road friction modeling;
Journal_Title :
Intelligent Transportation Systems, IEEE Transactions on
DOI :
10.1109/TITS.2005.858624
