Title :
Estimation of Maximum Tire-Road Friction Based on Dynamic Model Reconstruction
Author :
Mingyuan Bian ; Long Chen ; Yugong Luo ; Keqiang Li
Author_Institution :
State Key Lab. of Automotive Safety & Energy, Tsinghua Univ., Beijing, China
Abstract :
The maximum tire road friction coefficient greatly affect the dynamic vehicle response under defined driving conditions, which makes it a crucial parameter to vehicle dynamics control and active safety systems. A maximum road friction estimation scheme was proposed in this paper, in which the instantaneous tire friction was obtained by analyzing the vehicle dynamics response, and a new transient friction-wheel slip line with one unique peak value was reshaped based on reconstruction of a dynamic tire friction model. Simulation works were completed under various driving condition, which demonstrated the validation of the proposed algorithm.
Keywords :
road safety; stick-slip; tyres; vehicle dynamics; wheels; active safety systems; driving conditions; dynamic model reconstruction; dynamic tire friction model; dynamic vehicle response; maximum tire road friction coefficient estimation scheme; transient friction-wheel slip line; vehicle dynamics control; Estimation; Friction; Mathematical model; Roads; Tires; Vehicle dynamics; Wheels; friction coefficient; friction estimation; model reconstruction; road condition; tire model;
Conference_Titel :
Mechanical and Automation Engineering (MAEE), 2013 International Conference on
Conference_Location :
Jiujang
DOI :
10.1109/MAEE.2013.63
