Simulation Analysis of Traction Control for Anti-slip Control of Four Wheel Drive Vehicle

Abstract

Abstract:

In order to improve the vehicle dynamics and driving stability of full-time 4WD vehicle, dynamic models of engine, inter-axle and inter-wheel electronic limited-slip differential and hydraulic system were established, engine target torque fuzzy controller, inter-axle torque distribution fuzzy controller and inter-wheel torque distribution PID controller were designed. Integrated traction control strategy was proposed, and the acceleration performance was analyzed by simulating on low-μ road, step-μ road, split-μ road and ramp road. The results indicate that the strategy can regulate the drive torque quickly according to the slip of driving wheels, inhibit the excessive slip of driving wheels effectively, improve the dynamic performance and passing ability on bad roads obviously, and show a good adaptability.

Key words: four wheel drive(4WD) vehicle, traction control, strategy, dynamics simulation

摘要：

为提高全时四轮驱动汽车的整车动力性和行驶稳定性，建立了发动机、轴间/轮间电控限滑差速器及相应的液压控制系统数学模型，设计了发动机目标转矩模糊控制器、轴间电控限滑差速器模糊控制器以及轮间电控限滑差速器PID控制器，提出了基于驱动防滑的全时四轮驱动汽车牵引力控制策略。应用所制定的牵引力控制策略，分别在低附着均一路面、对接路面、分离路面及上坡分离路面上对整车加速性能进行了仿真分析，结果表明，所制定的牵引力控制策略能够根据各驱动轮的滑转状态调节驱动轮的驱动力矩，有效地抑制了驱动轮的过度滑转，提高了汽车在恶劣路面的动力性和行驶稳定性，并有较好的适应性。

关键词: 四轮驱动汽车, 牵引力控制, 策略, 动力学仿真

CLC Number:

U461.1

Hu Jianjun, Yang Zhenhui, Liu Hui, Ge Peng. Simulation Analysis of Traction Control for Anti-slip Control of Four Wheel Drive Vehicle[J]. China Mechanical Engineering, 2014, 25(13): 1817-1823.

胡建军, 杨振辉, 刘辉, 葛鹏. 四轮驱动汽车车轮驱动防滑的牵引力控制仿真分析[J]. 中国机械工程, 2014, 25(13): 1817-1823.

References

[1]李静，李幼德，赵健,等.四轮驱动汽车牵引力控制算法[J]. 机械工程学报，2006，42(2)：141-144．
Li Jing, Li Youde, Zhao Jian, et al. Research on Traction Control System for Four Wheel Drive Vehicle[J]. Chinese Journal of Mechanical Engineering, 2006, 42(2):141-144．
[2]Anwar S. Brake-based Vehicle Traction Control via Generalized Predictive Algorithm[J]. SAE Paper, 2003-01-0323, 2003.
[3]胡建军，王银，秦大同,等. 基于轴间转矩分配的四轮驱动汽车牵引力控制[J]. 华南理工大学学报（自然科学版），2010，38(1):108-112.
Hu Jianjun,Wang Yin,Qin Datong, et al. Traction Control of Four-wheel Drive Vehicles Based on Inter-axle Torque Distribution[J]. Journal of South China University of Technology(Natural Science Edition), 2010, 38(1):108-112.
[4]Panzani G, Corno M, Tanelli M, et al. Designing On-demand Four-wheel-drive Vehicles via Active Control of the Central Transfer Case[J]. Intelligent Transportation Systems, 2010, 11(1):931-941.
[5]高阳，李静，赵健,等. 全时四轮驱动汽车驱动轮牵引力综合控制策略[J]. 吉林大学学报(工学版)，2009，39(2):296-299.
Gao Yang, Li Jing, Zhao Jian，et al. Full-time Four-wheel-drive Vehicle Traction Integrated Control Strategy[J]. Journal of Jilin University(Engineering and Technology Edition), 2009, 39(2):296-299.
[6]胡建军，丁华，秦大同,等. 基于限滑差速器驱动的防滑控制[J]. 北京工业大学学报，2011，37(1)：174-180.
Hu Jianjun, Ding Hua, Qin Datong, et al. Anti-slip Regulation Based on Limited-slip Differential[J]. Journal of Beijing University of Technology, 2011, 37(1):174-180.
[7]王银. 基于轴间扭矩分配的四轮驱动汽车牵引力控制系统研究[D]. 重庆：重庆大学，2009.
[8]谢文云. 电控限滑差速器限滑转矩与整车性能匹配的仿真研究[D]. 长春：吉林大学，2007.
[9]于良耀，王会义，宋健. 汽车防抱制动系统中液压系统性能评价与试验[J]. 机械工程学报，2007，43(9):18-22.
Yu Liangyao, Wang Huiyi, Song Jian. Performance Evaluation and Test of Anti-lock Braking System Hydraulic System[J]. Chinese Journal of Mechanical Engineering，2007，43(9): 18-22.
[10]Sankar K M, Randolph C W. A Survey of 4WD Traction Control Systems and Strategies[J]. SAE Paper, 952644,1995.
[11]Mokhiamar O, Abe M. How the Four Wheels Should Share Forces in an Optimum Cooperative Chassis Control[J]. Control Engineering Practice, 2006, 14(3):295-304.
[12]Vantsevich V V. Multi-wheel Drive Vehicle Energy/Fuel Efficiency and Traction Performance: Objective Function Analysis[J]. Journal of Terramechanics, 2007, 44(3):239-253.
[13]潘玉斌. 商用车牵引力控制系统的路面识别算法研究[D]. 长春：吉林大学，2008.
[14]Senatore C, Sandu C. Torque Distribution Influence on Tractive Efficiency and Mobility of Off-road Wheeled Vehicles[J]. Journal of Terramechanics, 2011, 48:372-383.
[15]Grel R, Vejlupek J, Lambersky V, et al. Development of 4WS/4WD Experimental Vehicle: Platform for Research and Education in Mechatronics[C]//Proceedings of the 2011 IEEE International Conference on Mechatronics. Istanbul, Turkey, IEEE Computer Society，2011:893-898.
[16]毛啸滇. 防滑差速器的应用研究[D]. 合肥：合肥工业大学，2006.