MODEL REFERENCED ADAPTIVE CONTROL TO COMPENSATE SLIP-STICK TRANSITION DURING CLUTCH ENGAGEMENT

L. CHEN; G. XI; C. L. YIN

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MODEL REFERENCED ADAPTIVE CONTROL TO COMPENSATE SLIP-STICK TRANSITION DURING CLUTCH ENGAGEMENT

机译：模型参考自适应控制，用于在离合器接合过程中补偿滑移过渡

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Clutches are widely used in various vehicle powertrains. The engagement process of a friction clutch has three phases, i.e., open, slipping, and sticking. Transitions between different phases introduce a discontinuity to the powertrain dynamics, which has been neglected in previous research. A model referenced adaptive controller (MRAC), based on Popov hyper-stability criterion, is designed to compensate the discontinuity. MRAC adjusts the frictional torque along with the errors of the state variables compared with those of a referenced model. The designed MRAC is applied to a clutch in a bus. Simulation and experimental results under fast and slow startup cases show that MRAC can simultaneously reduce vehicle jerk and frictional dissipation when compared with the conventional controller.

机译：离合器广泛用于各种车辆动力总成中。摩擦离合器的接合过程具有三个阶段，即打开，滑动和粘着。不同阶段之间的过渡会给动力总成动力学带来不连续性，这在先前的研究中已被忽略。设计了基于Popov超稳定性准则的模型参考自适应控制器（MRAC），以补偿不连续性。与参考模型相比，MRAC会调整摩擦扭矩以及状态变量的误差。设计的MRAC应用于总线中的离合器。在快速和慢速启动情况下的仿真和实验结果表明，与传统控制器相比，MRAC可以同时减少车辆晃动和摩擦耗散。

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来源
《International Journal of Automotive Technology》 |2011年第6期|共8页
作者
L. CHEN; G. XI; C. L. YIN;
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原文格式 PDF
正文语种 eng
中图分类汽车工程;
关键词
Popov hyper-stability; Model reference; Adaptive control; Clutch engagement; Slip-stick transition;

机译：Popov超稳定性;模型参考;自适应控制;离合器啮合;滑移过渡;
入库时间 2022-08-18 10:35:13

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专利

1. MODEL REFERENCED ADAPTIVE CONTROL TO COMPENSATE SLIP-STICK TRANSITION DURING CLUTCH ENGAGEMENT [J] . L. CHEN, G. XI, C. L. YIN International Journal of Automotive Technology . 2011,第6期

机译：模型参考自适应控制，用于在离合器接合过程中补偿滑移过渡
2. System dynamic modelling and adaptive optimal control for automatic clutch engagement of vehicles [J] . J. Zhang, L. Chen, G. Xi Proceedings of the Institution of Mechanical Engineers, Part D. Journal of Automobile Engineering . 2002,第d12期

机译：车辆自动离合器接合的系统动力学建模和自适应最优控制
3. Robust and two-level (nonlinear) predictive control of switched dynamical systems with unknown references for optimal wet-clutch engagement [J] . Abhishek Dutta, Clara M Ionescu, Robin De Keyser, Proceedings of the Institution of Mechanical Engineers . 2014,第i4期

机译：具有未知基准的切换动力系统的鲁棒和两级（非线性）预测控制，可实现最佳的湿式离合器接合
4. Adaptive control method of clutch torque during clutch slip engagement [C] . Jinrak Park, Seibum Choi Annual American Control Conference . 2020

机译：离合器打滑时离合器转矩的自适应控制方法
5. Design of robust feedforward compensators for direct model reference adaptive control algorithms. [D] . Ozcelik, Selahattin. 1996

机译：直接模型参考自适应控制算法的鲁棒前馈补偿器设计。
6. Biological Interpretation of Model-Reference Adaptive Control in a Mass Action Kinetics Metabolic Pathway Model [O] . Chang F Quo, May D Wang -1

机译：在质量作用动力学代谢途径型号模型参考自适应控制的生态解读
7. Model Reference Adaptive Control Scheme With Compensator for Modeling Errors [O] . Hiromitsu OMORI, Akira SANO 1986

机译：用于建模错误补偿器的模型参考自适应控制方案

MODEL REFERENCED ADAPTIVE CONTROL TO COMPENSATE SLIP-STICK TRANSITION DURING CLUTCH ENGAGEMENT

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