Title :
Simulation of Acceleration Slip Regulation for vehicle based on CAN bus
Author :
Li, Zhiyuan ; Wang, Tao ; Wang, Qing ; Hou, Shunyan
Author_Institution :
Dept. of Mech. Eng., Hebei Univ., Baoding, China
Abstract :
A CAN bus integrating the engine ECU and the vehicle anti-slip regulation ECU was developed for Vehicle Acceleration Slip Regulation (ASR) based on the SAE protocol J1939. Then the ASR system simulation model with CAN bus was built in CANoe-Matlab, and the ASR CAN network was simulated with fuzzy-PID control algorithm in Co-simulation method. The results show that it is feasible and real-time to control engine throttle with communication between ASR ECU and engine ECU through CAN bus, the fuzzy-PID controller can effectively prevent the excessive spin of driving wheels on slip roads and improve the driving ability of the vehicle, and this system also provides a more convenient way for the vehicle integrated control and development of ASR controller with CAN bus.
Keywords :
acceleration control; automotive electronics; controller area networks; engines; field buses; fuzzy control; road vehicles; slip; three-term control; traction; vehicle dynamics; wheels; ASR; CAN bus; CANoe-Matlab; SAE J1939 protocol; acceleration slip regulation simulation; co-simulation method; driving wheels; electronic control unit; engine ECU; engine throttle control; excessive spin prevention; fuzzy-PID control algorithm; slip roads; vehicle antislip regulation; vehicle driving ability improvement; vehicle integrated control; Acceleration; Control systems; Engines; Mathematical model; Roads; Vehicles; Wheels; CAN bus; Co-simulation; acceleration slip regulation; fuzzy-PID control;
Conference_Titel :
Transportation, Mechanical, and Electrical Engineering (TMEE), 2011 International Conference on
Conference_Location :
Changchun
Print_ISBN :
978-1-4577-1700-0
DOI :
10.1109/TMEE.2011.6199329
