关键词: 汽车平顺性；驾驶室半主动悬置；PID 控制；模糊 PID 控制

Abstract: In order to study the effect of adjustable damping semi-active cab mounts of commercial vehicles on ride comfort, a vehicle model and a left and right wheel track roughness model are established in TruckSim. Proportional-integral-derivative (PID) and fuzzy-PID controller models are built in MATLAB/Simulink. The actuator model is established based on the external characteristics test results of the continuous damping control (CDC) damper in relevant literature. Using the sum of root mean squarevalues of vertical, pitch, and roll accelerations of the commercial vehicle cab as the vibration evaluation criteria, the vibration situation of cab with passive and semi-active mounts at speeds of 50 km/h and 90 km/h are compared through TruckSim and Simulink co-simulation. The simulation results show that compared to passive mounts, semi-active mounts based on PID and fuzzy PID can significantly improve the ride comfort of commercial vehicle cab, the two control strategies have very similar control effects, improving the overall vibration situation of cab by approximately 13.28% and 14.02% under both working conditions.

Key words: Automobile ride comfort; Semi-active mount of the cab; PID control; Fuzzy-PID control