Vehicle flat ride dynamics

Marzbani, H, Voquoc, D, Nakhaie Jazar, R and FARD, M 2017, 'Vehicle flat ride dynamics', in Giuseppe De Pietro, Luigi Gallo, Robert J. Howlett, Lakhmi C. Jain (ed.) Proceedings of the 10th KES International Conference on Intelligent Interactive Multimedia Systems and Services (IIMSS 2017), Vilamoura, Portugal, 21-23 June 2017, pp. 278-288.


Document type: Conference Paper
Collection: Conference Papers

Title Vehicle flat ride dynamics
Author(s) Marzbani, H
Voquoc, D
Nakhaie Jazar, R
FARD, M
Year 2017
Conference name International Conference on Intelligent Interactive Multimedia Systems and Services
Conference location Vilamoura, Portugal
Conference dates 21-23 June 2017
Proceedings title Proceedings of the 10th KES International Conference on Intelligent Interactive Multimedia Systems and Services (IIMSS 2017)
Editor(s) Giuseppe De Pietro, Luigi Gallo, Robert J. Howlett, Lakhmi C. Jain
Publisher Springer
Place of publication Cham, Switzerland
Start page 278
End page 288
Total pages 11
Abstract By modelling a four-wheel vehicle as a bicycle, it has been suggested (Olley 1934) that if the radius of gyration, r, in pitch is equal to the multiplication of the distance from the center of gravity of the front, a, and rear, b, wheels of the car (r2 ¼ a _ b), the bounce center of the vehicle will be located at one spring and the pitch center on the other spring of a bicycle car model. Employing the flat ride condition, r2 ¼ a _ b, the system of the sprung masses of a vehicle can be considered as two separate mass-spring systems. Therefore, front and rear suspensions may be modelled as two separate one degree of freedom spring-mass system. This paper mathematically derives the flat ride condition and clarifies analytically how exact is the suggested condition.
Subjects Automotive Engineering not elsewhere classified
Dynamics, Vibration and Vibration Control
Keyword(s) Flat ride
Smart suspension
Passive suspension optimization
Vehicle dynamics
DOI - identifier 10.1007/978-3-319-59480-4_28
Copyright notice © Springer International Publishing AG 2018
ISBN 9783319594798
Versions
Version Filter Type
Citation counts: Scopus Citation Count Cited 0 times in Scopus Article
Altmetric details:
Access Statistics: 39 Abstract Views  -  Detailed Statistics
Created: Wed, 19 Sep 2018, 13:35:00 EST by Catalyst Administrator
© 2014 RMIT Research Repository • Powered by Fez SoftwareContact us