Integrated control of brake pressure and rear-wheel steering to improve lateral stability with fuzzy logic

被引：0

作者：

J. Song

机构：

[1] Tongmyong University,Department of Mechatronics Engineering

来源：

International Journal of Automotive Technology | 2012年 / 13卷

关键词：

IDCS (Integrated Dynamics Control with Steering); Vehicle stability control; Fuzzy logic; Vehicle model; Body slip angle; Yaw rate;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

This study introduces an integrated dynamic control with steering (IDCS) system to improve vehicle handling and stability under severe driving conditions. It integrates an active rear-wheel steering control system and a direct yawmoment control system with fuzzy logic. Direct yaw-moment control is achieved by modifying the optimal slip of the front outer wheel. An 8-degree-of-freedom vehicle model was used to evaluate the proposed IDCS for various road conditions and driving inputs. The results show that the yaw rate tracked the reference yaw rate and that the body slip angle was reduced when the IDCS was employed, thereby increasing the controllability and stability of the vehicle on slippery roads. The IDCS system reduced the deviation from the center line for a vehicle running on a split m road.

引用

页码：563 / 570

页数：7

共 26 条

[1]

Boada M. J. L.(2006)Integrated control of front-wheel steering and front braking forces on the basis of fuzzy logic Proc. IMechE, Part D: J. Automobile Engineering 220 253-267

[2]

Boada B. L.(2006)Coordination of active steering, driveline, and braking for integrated vehicle dynamics control Proc. IMechE, Part D: J. Automobile Engineering 220 1401-1421

[3]

Munoz A.(2010)Design of a vehicle lateral stability control system via a fuzzy logic control approach Proc. IMechE, Part D: J. Automobile Engineering 223 313-326

[4]

Diaz V.(2007)A review of yaw rate and sideslip controllers for passenger vehicles Trans. Institute of Measurement and Control 29 117-135

[5]

He J.(2002)Active wheel steering and yaw moment control combination to maximize stability as well as vehicle responsiveness during quick lane change for active vehicle handling safety Proc. IMechE, Part D: J. Automobile Engineering 216 115-124

[6]

Crolla D. A.(2002)Study on integrated control of active front steer angle and direct yaw moment JSAE Review 23 309-315

[7]

Levesley M. C.(2009)Comparison and evaluation of steer yaw motion controllers with an anti-lock brake system Proc. IMechE, Part D: J. Automobile Engineering 223 503-518

[8]

Manning W. J.(2008)Comparison and evaluation of brake yaw motion controllers with an antilock brake system Proc. IMechE, Part D: J. Automobile Engineering 222 1273-1288

[9]

Li B.(2009)Comparison between braking and steering yaw moment controllers considering ABS control aspects Mechatronics 19 1126-1133

[10]

Fan Y.(2007)Integrated control system design of an active front wheel steering and four wheel torque to improve vehicle handling and stability Int. J. Automotive Technology 8 299-308

← 1 2 3 →