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Development of Effective Bicycle Model for Wide Ranges of Vehicle Operations
Technical Paper
2014-01-0841
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
This paper proposes an effective nonlinear bicycle model including longitudinal, lateral, and yaw motions of a vehicle. This bicycle model uses a simplified piece-wise linear tire model and tire force tuning algorithm to produce closely matching vehicle trajectory compared to real vehicle for wide vehicle operation ranges. A simplified piece-wise tire model that well represents nonlinear tire forces was developed. The key parameters of this model can be chosen from measured tire forces. For the effects of dynamic load transfer due to sharp vehicle maneuvers, a tire force tuning algorithm that dynamically adjusts tire forces of the bicycle model based on measured vehicle lateral acceleration is proposed. Responses of the proposed bicycle model have been compared with commercial vehicle dynamics model (CarSim) through simulation in various vehicle maneuvers (ramp steer, sine-with-dwell). The simulation results show that the trajectory of the proposed bicycle model is well matched with the CarSim vehicle model for ramp steer and sine-with-dwell maneuvers at various vehicle operating conditions. This model can be a useful tool for the development of effective vehicle chassis control systems.
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Citation
Ren, H., Shim, T., Ryu, J., and Chen, S., "Development of Effective Bicycle Model for Wide Ranges of Vehicle Operations," SAE Technical Paper 2014-01-0841, 2014, https://doi.org/10.4271/2014-01-0841.Also In
References
- Oufroukh , N.A , Benine-Neto et.al. 2011 Invariant set based vehicle handling improvement at tire saturation using fuzzy output feedback Intelligent Vehicles Symposium (IV) 2011 IEEE 1104 1109
- Chen Chih-Keng , Dao Trung-Kien 2010 A Study of Bicycle Dynamics via System Identification International Symposium on Computer, Communication, Control and Automation
- Westermark C. 2013 Validation of vehicle model in car simulator Thesis Royal Institute of technology, School of Engineering Sciences, Kungliga Tekniska Högskolan in Stockholm
- Ahn , Chang Sun 2011 Robust Estimation of Road Friction Coefficient for Vehicle Active Safety Systems Thesis Mechanical Engineering in the University of Michigan
- Changfu Zong Heqi Liang Chengwei Tian Rufei Hu Vehicle chassis coordinated control strategy based on model predictive control method Information and Automation (ICIA), 2010 IEEE International Conference
- Yoshida Hidehisa , Shinohara Shuntaro & Nagai Masao 2008 Lane change steering manoeuvre using model predictive control theory Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility 46 S1 669 681 10.1080/00423110802033072
- Falcone Paolo , Tseng H. Eric , Borrelli Francesco , Asgari Jahan & Hrovat Davor 2008 MPC-based yaw and lateral stabilisation via active front steering and braking Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility 46 S1 611 628 10.1080/00423110802018297
- Doumiati M , Sename O , Dugard L et al. 2013 Integrated vehicle dynamics control via coordination of active front steering and rear braking European Journal of Control
- Hindiyeh RY , Gerdes JC. A controller framework for autonomous drifting: Design, stability, and experimental validation Proceedings, 2011 ASME Dynamic Systems and Control Conference
- Canale M , Fagiano L , Milanese M , Borodani P 2007 Robust vehicle yaw control using a differential and IMC techniques Control Engineering Practice 15 8 923 941
- Pacejka , Besselink 1997 Magic Formula Tire Model with Transient Properties Vehicle system dynamics 27
- Guntur R. and Sankar 1980 A friction circle concept for Dugoff's tire friction model Int. J. of Vehicle Design 1 4
- Tsiotras P. et al. 2004 A LuGre Tire Friction Model with Exact Aggregate Vehicle System Dynamics
- Guo , K. and Ren , L. A Unified Semi-Empirical Tire Model with Higher Accuracy and Less Parameters SAE Technical Paper 1999-01-0785 1999 10.4271/1999-01-0785
- Adireddy , G. , Shim , T and Rhode , D. Wheel Torque Controller Development Using a Simplified Tire Model for Vehicle Handling Enhancement ASME 2009 Dynamics Systems and Control Conferences Hollywood, CA October 12 14 2009
- Shim , T. Margolis , D. An Analytical Tire Model for Vehicle Simulation in Normal Driving Condition International Journal of Vehicle Design 35 3 2004 224 240
- Pacejka , H. Tire and Vehicle Dynamics Society of Automotive Engineers, Inc. and Butterworth Heinemann Warrendale, PA 978-0-7680-1126-5 2002
- CarSim http://www.carsim.com Mechanical Simulation Corporation 2008