Simulation of the Integrated ABS and DYC Control for 4WID Electric Vehicle with Regenerative Braking

Fu Guang Yang; Jiu Hong Ruan; Yi Bin Li

doi:10.4028/www.scientific.net/AMM.313-314.1125

Paper Titles

The Simulation Analysis of Harmonics in Typical Rectification Circuit
p.1105

The Control Simulation of Parallel Hybrid Power Unit
p.1109

A Strong Tracking Cubature Kalman Filter for Nonlinear Estimation
p.1115

Dynamic Simulation Analysis of Belt Rupture for Belt Conveyor
p.1120

Simulation of the Integrated ABS and DYC Control for 4WID Electric Vehicle with Regenerative Braking
p.1125

Defect Free Casting by Using Simulation Software
p.1130

Design of a New Five-Axis Linkage CNC Machining Center
p.1135

Design and Analysis of Nonlinear Autopilot for Tactical Missile
p.1139

A Design Reuse Process in Reduction the Low Yield Rate for Display Panel
p.1144

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 313-314Simulation of the Integrated ABS and DYC Control...

Simulation of the Integrated ABS and DYC Control for 4WID Electric Vehicle with Regenerative Braking

Abstract:

Study the lateral stability control method with regenerative braking for 4WID electrical vehicle whiling braking, an integrated control strategy with primary objective to enhance vehicle lateral stability was proposed, by which the regenerative braking, hydraulic braking, ABS and direct yaw moment control system were coordinated effectively. Simulation results on split-μ road indicated that compared with traditional ABS, the integrated control method can improve the lateral stability of vehicle at urgent braking condition, and increase the mileage of electric vehicles.

You might also be interested in these eBooks

Machinery Electronics and Control Engineering II

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 313-314)

Pages:

1125-1129

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.313-314.1125

Citation:

Cite this paper

Online since:

March 2013

Authors:

Fu Guang Yang, Jiu Hong Ruan, Yi Bin Li

Keywords:

4WID Electrical Vehicle, ABS, DYC, Regenerative Braking

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Okan Tur, Ozgur ustun, R.Nejat Tuncay. An Introduction to Regenerative Braking of Electric Vehicles as Anti-Lock Braking System [C].Proceedings of the 2007 IEEE Intelligent Vehicles Symposium, 2007:944-948.

DOI: 10.1109/ivs.2007.4290238

Google Scholar

[2] Chen Qingzhang,He Ren,Zhao Liansheng. Research on Vehicle Anti-lock Regenerative Braking Integrated Control Method [J]. China Mechanical Engineering，2009,20(2):245-247.

Google Scholar

[3] Taizo Sakamoto, Kuniaki Hirukawa,Tsutomu Ohmae. Cooperative Control of Full Electric braking System with Independently Driven Four Wheels[C]. 9th IEEE International Workshop on Advanced Motion Control, 2006:602-606.

DOI: 10.1109/amc.2006.1631728

Google Scholar

[4] Chen Qingzhang. He ren,Shang Gaogao.A research On Integrated Control of Vehicle Regenerative Braking Based on ABS [J].Automotive Engineering, 2008, 30(30):301-304.

Google Scholar

[5] Li ke,Zhang Chenghui,Cui Naxin. High efficiency regenerative braking control strategy for electric vehicle [J].Electric machines and control, 2008, 12(3):324-330.

DOI: 10.1109/ccdc.2008.4597722

Google Scholar

[6] Cong Geng,Mostefai.L,Denai.M．Direct Yaw-Moment Control of an In-Wheel- Motored Electric Vehicle Based on Body Slip Angle Fuzzy Observer[J].IEEE Transactions on Industrial Electronics, 2009,56(5):1411-1419．

DOI: 10.1109/tie.2009.2013737

Google Scholar

[7] Donghyun Kim, Sungho Hwang, Hyunsoo Kim. Vehicle Stability Enhancement of Four-Wheel-Drive Hybrid Electric Vehicle Using Rear Motor Control [J], IEEE Transactions on Vehicular technology, 2008,57(2):727-735.

DOI: 10.1109/tvt.2007.907016

Google Scholar

[8] Liu Guofu , Zhang Qi , Wang Yueke, et al. Study of Calculation of Model-based Optimal Slip Ratio[J]. Journal of Highway and Transportation Research and Development, 2004, 21(7): 111-114.

Google Scholar