Title :
Improved single neuron PID control for heavy-duty vehicle magnetorheological seat suspension
Author :
Zhao, Qiang ; Yang, Yaxun
Author_Institution :
Traffic Coll., Northeast Forestry Univ., Harbin
Abstract :
A semi-active seat suspension scheme is presented to replace the passive damper of traditional seat suspension. A human body-seat five-DOF model is applied to this system which includes a modified Bouc-Wen model for MR damper. An improved single neuron PID controller is proposed to enhance the seat suspension dynamic performance. A simulation model was established with MATLAB/SIMULINK and the simulation results indicate that this controller can effectively improve the antivibration effect of the seat, absorb the shock on driver, and improve enhance the riding comfortableness.
Keywords :
magnetorheology; neurocontrollers; seats; suspensions (mechanical components); three-term control; vehicles; vibration control; MATLAB/SIMULINK; MR damper; heavy-duty vehicle magnetorheological seat suspension; single neuron PID control; Damping; Electric shock; Humans; MATLAB; Magnetic levitation; Mathematical model; Neurons; Shock absorbers; Three-term control; Vehicle dynamics; Heavy-Duty vehicle; Magneto-rheological damper; Seat suspension; Single neuron PID control;
Conference_Titel :
Vehicle Power and Propulsion Conference, 2008. VPPC '08. IEEE
Conference_Location :
Harbin
Print_ISBN :
978-1-4244-1848-0
Electronic_ISBN :
978-1-4244-1849-7
DOI :
10.1109/VPPC.2008.4677632
