DocumentCode
2399422
Title
Vehicle Ride Comfort Analysis and Optimization Using Design of Experiment
Author
Chen, Shuming ; Wang, Dengfeng ; Zuo, Ankang ; Chen, Zhen ; Li, Wei ; Zan, Jianming
Author_Institution
State Key Lab. of Automotive Dynamic Simulation, Jilin Univ., Changchun, China
Volume
1
fYear
2010
fDate
26-28 Aug. 2010
Firstpage
14
Lastpage
18
Abstract
In this paper the fundamental of the component mode synthesis was reviewed. In order to optimize the ride comfort of the vehicle, a rigid-flexible coupling model of a car was established by using multibody system dynamics method and component mode synthesis technology. The flexibility of the car body, twist beam of the rear suspension, and stabilizer rod was considered. The ride comfort of the vehicle was calculated at different vehicle speeds with an interval of 10 km/h from 40 to 150 km/h. The ride comfort was optimized by using the design of experiment method. The optimal combination of suspension stiffness and damping parameters was determined, and the overall weighted acceleration RMS of the seat vibration was reduced by 16.96% at the upper surface of the driver seat on vehicle speed at 70 km/h. The ride comfort was obviously improved. Further simulation analysis shows that the ride comfort is effective improved at the other higher speed when applies optimal suspension parameter obtained.
Keywords
automotive components; damping; design of experiments; optimisation; shear modulus; suspensions (mechanical components); vehicle dynamics; velocity; vibrations; car body; component mode synthesis technology; damping; design of experiment; flexibility; multibody system dynamics method; optimization; rear suspension; rigid-flexible coupling model; seat vibration; stabilizer rod; twist beam; vehicle ride comfort analysis; vehicle speed; weighted acceleration RMS; Acceleration; Couplings; Mathematical model; Springs; Suspensions; Vehicle dynamics; Vehicles; design of experiment (DOE); optimization; orthogonal array table; ride comfort; rigid-flexible coupling; vehicle;
fLanguage
English
Publisher
ieee
Conference_Titel
Intelligent Human-Machine Systems and Cybernetics (IHMSC), 2010 2nd International Conference on
Conference_Location
Nanjing, Jiangsu
Print_ISBN
978-1-4244-7869-9
Type
conf
DOI
10.1109/IHMSC.2010.11
Filename
5590799
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