Title :
The simulation and optimization of vehicle ride comfort based on vehicle dynamic model with five degrees of freedom
Author :
Hao Liu ; Hong Zhou ; Junjie Chen
Author_Institution :
Automotive Sch., Tongji Univ., Shanghai, China
Abstract :
The paper describes the current research situation of automotive ride comfort from two aspects of experimental and simulation. The dynamics model with five degrees of freedom of a bus is established, meanwhile the kinetic equations is also derived according to D´Alembert principle. A road simulation model of class B is also established on the basis of white noise method. Combined with vehicle model and road model, the model of Matlab/Simulink is built. The vertical acceleration RMS on the seat is objective function and stiffness and damping of front and rear suspension are optimization variables. On the basis of GB/T4970-2009, the acceleration RMS is optimized in the speed interval of 50km / h and 100km / h. After been optimized, the RMS is reduced by about 10% and the effect is obvious at 60km / h.
Keywords :
automobiles; damping; elasticity; ergonomics; optimisation; suspensions (mechanical components); vehicle dynamics; white noise; D´Alembert principle; GB/T4970-2009; Matlab; Simulink; acceleration RMS; automotive ride comfort; damping; dynamics model; front suspension; kinetic equations; rear suspension; road model; road simulation model; stiffness; vehicle dynamic model; vehicle model; vehicle ride comfort optimization; vertical acceleration RMS; white noise method; Educational institutions; Electronic mail; MATLAB; Mathematical model; Optimization; Vehicles; MATLAB/Simulink; Optimization; Ride Comfort; SQP;
Conference_Titel :
Control Conference (CCC), 2014 33rd Chinese
Conference_Location :
Nanjing
DOI :
10.1109/ChiCC.2014.6896270
