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Research on Road Feeling Control Strategy of Steer-by-Wire
Technical Paper
2007-01-3652
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
A steer-by-wire system has many benefits over conventional steering system for no mechanical link existing between the steering wheel and the road wheels. Road feeling has been being one of the most important vehicle characteristics reflecting vehicle directional control and stability. Besides the steering angle, road wheels reactive torque and vehicle dynamical behavior are considered in this paper. A control strategy with road wheels force feedback and steering wheel angle feedback was developed. The vehicle dynamic states are taken into account for road feeling simulation. Simulation shows that the control strategy achieves desired road feeling, and the second control strategy can improve the road feeling dynamically.
Authors
Citation
Shengbing, Y., Chunan, D., Xuewu, J., and Kuiyuan, C., "Research on Road Feeling Control Strategy of Steer-by-Wire," SAE Technical Paper 2007-01-3652, 2007, https://doi.org/10.4271/2007-01-3652.Also In
References
- Shimizu Yasuo et al “Improvement in Driver-Vehicle System Performance by Varying Steering Gain with Vehicle Speed and Steering Angle: VGS (Variable Gear-Ratio Steering System) SAE Technical Paper Series, 1999-01-0395 1999
- Segawa M. et al. “A Study of Vehicle Stability Control by Steer By Wire System” Proceedings of 5th International Symposium on Advanced Vehicle Control 2000
- Wook S. et al. “The Development of an Advanced Control Method for the Steer-by-Wire System to Improve the Vehicle Maneuverability and Stability” Proceedings of SAE International Congress and Exhibition 2003
- Segawa M. et al. “A Study of Reactive Torque Control for Steer By Wire System” Proceedings of 7th International Symposium on Advanced Vehicle Control 2002
- KIMURA S. SEGAWA M. KADA T. NAKANO S. Research on Steering Wheel Control Strategy as a Man-Machine Interface for Steer-by-Wire System Koyo Engineering Journal English Edition 166E 2005 29 33
- Haiyan, Zhao Hong Chen Estimation of Vehicle Yaw Rate and Side Slip Angle Using Moving Horizon Strategy 2006 IEEE Proceedings of the 6th World Congress on Intelligent Control and Automation June 21-23 2006 Dalian, China
- Yixin Yao Vehicle Steer-by-wire System Control SAE 2006-01-1175
- MAXIMILIEN AZZALWI, GERARDL GISSLNGER, VERONIQUE BOUSSOUAR, PATRICK COUTANT, Computation of a variable steering ratio with a fuzzy logic method IEEE 2002