Title :
Hybrid control architecture for automobile ABS
Author :
Nouillant, C. ; Assadian, F. ; Moreau, X. ; Oustaloup, A.
Author_Institution :
PSA Peugeot Citroen, Velizy -Villacoublay, France
Abstract :
Car passengers safety has become a large field of study and improvement with the help of mechatronic subsystems during the last decades. Among these systems, ABS enables one to brake the wheels without locking, thus optimizing the stopping distance. However, the actions of an ABS cannot be proven to be beneficial under all road conditions. To this end, a hybrid control architecture is proposed to enhance ABS performance. It is composed of both feedforward and feedback controllers that compensate for the uncertainty of tire-road coefficient of friction, and a finite state machine is used for ABS activation. Simulation results draw the benefits of such an architecture
Keywords :
automobiles; braking; feedback; feedforward; finite state machines; force control; intelligent actuators; uncertain systems; ABS activation; CRONE; automobile ABS; car passenger safety; feedback controllers; feedforward controllers; finite state machine; hybrid control architecture; mechatronic subsystems; road conditions; simulation results; slip-ratio reference; tire-road coefficient of friction; uncertainty; wheel inertia; Adaptive control; Automata; Automobiles; Friction; Mechatronics; Roads; Vehicle crash testing; Vehicle dynamics; Vehicle safety; Wheels;
Conference_Titel :
Robot and Human Interactive Communication, 2001. Proceedings. 10th IEEE International Workshop on
Conference_Location :
Bordeaux, Paris
Print_ISBN :
0-7803-7222-0
DOI :
10.1109/ROMAN.2001.981952
