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Variable Torque Distribution Yaw Moment Control for Hybrid Powertrains
Technical Paper
2007-01-0278
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
This paper proposes and evaluates the use of a robust variable torque distribution (VTD) yaw moment control for an all wheel drive (AWD) hybrid vehicle prototype currently under development. The proposed VTD controller was used to improve the linearity of vehicle response to driver input through the modulation of front-to-rear torque distribution and a corrective torque differential between the left and right rear wheels. The development of a non-linear vehicle model and a reference model tracking sliding mode based control are discussed. The efficacy of the proposed control system was demonstrated through the use of numerical simulations using the developed non-linear vehicle model. The simulation results presented indicate the effectiveness of the proposed system and the potential restrictions to such a system including tire saturation and drivetrain component limitations.
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Citation
Rieveley, R. and Minaker, B., "Variable Torque Distribution Yaw Moment Control for Hybrid Powertrains," SAE Technical Paper 2007-01-0278, 2007, https://doi.org/10.4271/2007-01-0278.Also In
References
- Kimura, A. Ando, I. Itagaki, K. “Development of Hybrid System For SUV” SAE 2005-01-0273
- Papelis, Y. et. al. “Study of ESC Assisted Driver Performance Using a Driving Simulator” National Advanced Driving Simulator Report
- Tseng, H. Ashrafi, B. Brown, T. Recker, D. The Development of Vehicle Stability Control at Ford IEEE/ASME Transactions on Mechatronics 4 3 1999
- Aga, M. Okada, A. “Analysis of Vehicle Stability Control (VSC)'s Effectiveness From Accident Data” Paper No. 541
- “Federal Motor Vehicle Safety Standards; Electronic Stability Control Systems” Department Of Transportation National Highway Traffic Safety Administration
- Danesin, D. Girardin, C. et. al. “Driveline Layout Influence on Four Wheel Drive Dynamics” SAE Transactions, 2004-01-0860
- Wheals, J. et. al. “Torque Vectoring AWD Driveline: Design, Simulation, Capabilities and Control” SAE Technical Paper, 2004-01-0863
- He, J. Crolla, D. et. al. “Integrated Active Steering and Variable Torque Distribution Control for Improving Vehicle Handling and Stability” SAE Transactions, 2004-01-1071
- Sawase, K. Sano, Y. “Application of Active Yaw Control to Vehicle Dynamics by Utilizing Driving/Braking Force” JSAE Review 20 289 295 1999
- Nagai, M. Shino, M. Gao, F. “Study on Integrated Control of Active Front Steer Angle and Direct Yaw Moment” JSAE Review 23 309 315 2002
- Osborn, P. Shim, T. “Independent Control of All-Wheel-Drive Torque Distribution” SAE Transactions, 2004-01-2052
- Kiers, M. “Automotive Regenerative Braking Utilizing Electrochemical Capacitor Energy Storage” University of Waterloo 2004
- Kiers, M. Marei, M. Lambert, S. Pick, R. Salama, M. “Design and Prototype testing of an electric drivetrain utilizing electrochemical capacitors.” CDEN/RCCI 2004
- Waltermann, P. “Modelling and Control of the Longitudinal and Lateral Dynamics of a Series Hybrid Vehicle” IEEE Conference on Control Applications Proceedings 1996
- Blundell, M. Harty, D. “The Multibody Systems Approach to Vehicle Dynamics” Society of Automotive Engineers Warrendale, PA 2004
- Bakker, E. Pacejka, H. Lidner, L. “A New Tire Model with an Application in Vehicle Dynamics Studies” SAE Transactions, 890087
- Milliken, W. Milliken, D. “Race Car Vehicle Dynamics” SAE International 1995
- Karnopp, D. “Vehicle Stability” Marcel Dekker, Inc. New York 2004
- Slotine, J.-J. Li, W. “Applied Nonlinear Control” Pearson Education 1991