Iterative Learning Control for Gear Shifting Process in Electrical Mechanical Transmission

doi:10.3901/JME.2019.04.084

Abstract

Abstract: Gear shifting process in electrical mechanical transmission(EMT) is a complicated nonlinear multi-body dynamic process. Because of the difficulty in system modeling and huge uncertainty of this process, it is difficult to obtain favorable control performance by using traditional control methods. Hence, these problems largely hinder the development of corresponding control methods for this process. In face of these problems, the paper analyzes the characteristics of the entire process and consider that the process is a repetitive execution, then presents an approach of adopting iterative learning control(ILC) method to optimize gear shifting process. To realize this purpose, unknown input observer is used to estimate the gear shifting load force, then design a linear state feedback controller to generate initial control inputs. After that, ILC is adopted to compensate the control error and considering the construction of the desired trajectory. Finally, experimental results have shown that the proposed scheme is feasible and efficient.

Key words: electrical mechanical transmission(EMT), gear shifting process, iterative learning control(ILC), unknown input observer

CLC Number:

TG156

HE Kai, LIN Chengtao, LI Liang, WANG Xiangyu. Iterative Learning Control for Gear Shifting Process in Electrical Mechanical Transmission[J]. Journal of Mechanical Engineering, 2019, 55(4): 84-90.

References

[1] 沈文臣,胡宇辉,于会龙,等. 基于"虚拟离合器"的混合动力车辆AMT换档过程控制[J]. 机械工程学报,2014,50(18):108-117. SHEN Wenchen,HU Yuhui,YU Huilong,et al. Shifting process control of AMT based on virtual clutch technology for hybrid electric vehicle[J]. Journal of Mechanical Engineering,2014,50(18):108-117.
[2] 叶珂羽. 纯电动汽车两档AMT换档过程优化控制[D]. 长春:吉林大学,2017. YE Keyu. Optimal control for gearshift of a two-speed AMT electric vehicle[D]. Changchun:Jilin University,2017.
[3] 周晶晶. 纯电动汽车两档自动变速器试验与仿真[D]. 长沙:湖南大学,2014. ZHOU Jingjing. Gearshift dynamics simulation in two speeds AMT of pure electric vehicle[D]. Changsha:Hunan University,2014.
[4] LOVAS L,PLAY D,MARIALIGETI J,et al. Mechanical behavior simulation for synchromesh mechanism improvements[J]. Proceedings of the Institution of Mechanical Engineers,Part D:Journal of Automobile Engineering,2006,220(7):919-945.
[5] LIN Shusen,CHANG Siqin,LI Bo. Improving the gearshifts events in automated manual transmission by using an electromagnetic actuator[J]. Proceedings of the Institution of Mechanical Engineers,Part C:Journal of Mechanical Engineering Science,2015,229(9):1548-1561.
[6] ZHONG Zaimin,KONG Guoling,YU Zhuoping,et al. Concept evaluation of a novel gear selector for automated manual transmissions[J]. Mechanical Systems and Signal Processing,2012,31(Suppl. C):316-331.
[7] KONG Guoling,ZHANG Nong,ZHANG B. Novel hybrid optimal algorithm development for DC motor of automated manual transmission[J]. International Journal of Automotive Technology,2016,17(1):135-143.
[8] TSENG C Y,YU C H. Advanced shifting control of synchronizer mechanisms for clutchless automatic manual transmission in an electric vehicle[J]. Mechanism and Machine Theory,2015,84(Suppl. C):37-56.
[9] BARTON K L,ALLEYNE A G. A norm optimal approach to time-varying ILC with application to a multi-axis robotic testbed[J]. IEEE Transactions on Control Systems Technology,2011,19(1):166-180.
[10] LONGMAN R W. Iterative learning control and repetitive control for engineering practice[J]. International Journal of Control,2000,73(10):930-954.
[11] LIU Xiangjie,KONG Xiaobing. Nonlinear fuzzy model predictive iterative learning control for drum-type boiler turbine system[J]. Journal of Process Control,2013,23(8):1023-1040.

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