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The Research of Tire Mechanics at Lower-Speed for Interactive Developing
Technical Paper
2015-01-0081
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
With the development of computer and vehicle research to high frequency, the driving simulator plays an important role on vehicle research and pre-development. The driving simulator have already been used for research about human factors, advanced active system (ABS, ESP et al), the vehicle dynamics and intelligent transportation systems (ITS) et al. The crucial requirement for a driving simulator is that it should have realistic behavior. The realistic behavior base on high-fidelity dynamics models especially tire model. “Tire/road” model is of special importance model for its influence on vehicle performances. The forces for accelerating, braking and steering are all came from tire road contact. The simulator simulation faces all possible driving scenes as driving in the real word, like parking on the hill, stop and start again, sharp steering and sharp braking et al. From the research based on the ASCL driving simulator (State Key Laboratory of Automotive Simulation and Control, Jilin University, China), the vehicle couldn't stop completely and the vehicle shift easily on the braking operation. The depressed phenomenon came from the tire model for its numerical problem at lower-speeds. To solve the unexpected phenomenon and increase validity of the tire model and improve the vehicle dynamics model to high frequency, the dynamic wheel model was proposed. Then, from the principle of force generation not the numerical algorithm, the static-sliding separation method was proposed to calculate tire forces at lower speeds. On the basis of these above theories, the longitudinal force and rolling resistance torque was simulated on computer and the verification carried on ASCL developing driving simulator platform.
Authors
Citation
Guan, H., Duan, C., Lu, P., Zhan, J. et al., "The Research of Tire Mechanics at Lower-Speed for Interactive Developing," SAE Technical Paper 2015-01-0081, 2015, https://doi.org/10.4271/2015-01-0081.Also In
References
- Zeeb , Eberhard Daimler's new full-scale, high-dynamic driving simulator a technical overview Conference Proc. Driving Simulator Conference Europe Paris 2010
- Kasim Mohamad Vehicle driving simulator design and development of 6-dof motion platform for vehicle driving simulator Faculty of Mechanical Engineering, University Technology Malaysia[R]
- Zegelaar Peter W. A. The dynamic response of tires to break torque variations and road unevennesses Ph.D. thesis Delft University of Technology The Netherlands 1998
- Heydinger , Gary J. et al. Vehicle dynamics modeling for the national advanced driving simulator Proceedings of the institution of mechanical engineers, part D: journal of automobile engineering 216 4 307 318 2002
- Guo , Konghui , Guan , Hsin , and Zong Changfu Development and applications of JUT-ADSL driving simulator Vehicle Electronics Conference, 1999.(IVEC'99) Proceedings of the IEEE International IEEE 1999
- Jamson , Andrew Hamish John Motion cueing in driving simulators for research applications Ph.D. thesis University of Leeds 2010
- Kuiper , E. , and Van Oosten J. J. M. The PAC2002 advanced h andling tire model Vehicle system dynamics 45 S1 153 167 2007 10.1080/00423110701773893
- Ammon D. Vehicle dynamics analysis tasks and related tyre simulation challenges Vehicle System Dynamics 43 S1 30 47 2005 10.1080/00423110500141003
- Rauh Johan , Mössner-Beigel Monika Tyre simulation challenges Vehicle System Dynamics.:International Journal of Vehicle Mechanics and Mobility 46 S1 49 62 2008 10.1080/00423110701882298
- Lugner P. , Pacejka , H. , and Plöchl M. Recent advances in tyre models and testing procedures Vehicle System Dynamics 43 6 413 426 2005 10.1080/00423110500158858
- Xu Nan , Guo Konghui , Zhang , Xinjie , and Karimi Hamid Reza An Analytical Tire Model with Flexible Carcass for Combined Slips Mathematical Problems in Engineering 2014 2014 10.1155/2014/397538
- PACEJKA H.B. , SHARP R.S. Shear Force Development by Pneumatic Tyres in Steady State Conditions: A Review of Modelling Aspects Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility 20 3 4 121 175 1991 10.1080/00423119108968983
- Bernard , J. and Clover , C. Tire Modeling for Low-Speed and High-Speed Calculations SAE Technical Paper 950311 1995 10.4271/950311
- Pacejka . Hans B. Tyre and Vehicle Dynamics Oxford Butterworth-Heinemann 980-0-7506-6918-4 2002
- Gipser M. FTire - the tire simulation model for all applications related to vehicle dynamics Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility 45 S1 139 151 2007 10.1080/00423110801899960
- Besselink . I.J.M. , Pacejka . H.B. The SWIFT tyre model: overview and application AVEC 2004
- Berzeri , M. , Dhir , A. , Ranganathan , R. , Balendran , B. et al. A New Tire Model for Road Loads Simulation: Full Vehicle Validation SAE Technical Paper 2004-01-1579 2004 10.4271/2004-01-1579
- Hirschberg . W. , Rill . G. , Weinfurter . H. Tire model TMeasy vehicle system dynamics 45 S1 101 119 2007 10.1080/00423110701776284
- Jaiswal . M , Mavros . G , Rahnejat . H et al. Influence of tyre transience on anti-lock braking Journal of Multi-body Dynamics 224 1 1 17 2010 10.1243/14644193JMBD225
- shu-yi . Pang , xin . Guan , guoqi . Huo et al. Calculation of tire carcass's stiffness for the dynamic wheel model Journal of Jilin University (Engineering and Technology Edition 41 s2 17 20 2011
- Karnopp . D. Computer simulation of stick-slip friction in mechanical dynamic systems ASME Journal of Dynamic Systems, Measurement and Control 107 1 100 103 1985
- Guo K. & Lu . D. UniTire: unified tire model for vehicle dynamic simulation Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility 45 S1 79 99 2007 10.1080/00423110701816742
- shuyi . Pang Study on Vehicle Dynamical model for Subjective Evaluation Ph.D. thesis ASCL, Jilin university China 2011