Optimal Servo Design for Lock-Up Slip Control for Torque Converter—Nonlinear Output Regulation Approach

Umemura Yoshio; Sakamoto Noboru

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Optimal Servo Design for Lock-Up Slip Control for Torque Converter—Nonlinear Output Regulation Approach

机译：变矩器锁止滑移控制的最佳伺服设计—非线性输出调节方法

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It is well known that slip control of lock-up clutch in automatic transmission systems is a crucial technology for improving fuel economy and driving comfort. However, plant parameters rapidly vary according to turbine speed, making the slip control challenging. For this problem, we apply nonlinear output regulation theory for the system represented as a linear parameter-varying system with the turbine speed as the parameter. In this framework, it is possible to design a servo controller that is optimally scheduled according to the turbine speed. The effectiveness of the proposed method is confirmed by experiments compared with an controller, which is one of the most advanced methods employed in the field of lock-up clutch slip control.

机译：众所周知，自动变速器系统中锁止离合器的打滑控制是提高燃油经济性和驾驶舒适性的关键技术。但是，设备参数会根据涡轮速度快速变化，这使得打滑控制变得困难。针对这个问题，我们将非线性输出调节理论应用于以涡轮速度为参数的线性参数变化系统。在这种框架下，有可能设计出一种根据涡轮转速最佳调度的伺服控制器。与控制器相比，该方法的有效性通过实验得到了证实，控制器是锁止离合器打滑控制领域中采用的最先进的方法之一。

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来源
《Control Systems Technology, IEEE Transactions on》 |2015年第4期|1587-1593|共7页
作者
Umemura Yoshio; Sakamoto Noboru;
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作者单位

, Aisin AW Company, Ltd., Aichi, Japan;

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原文格式 PDF
正文语种 eng
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关键词
Automotive applications; non-linear control systems; observers; servosystems; servosystems.;

机译：汽车应用;非线性控制系统;观察者;伺服系统;伺服系统。;

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专利

1. Robust and Simplified Design of Slip Control System for Torque Converter Lock-Up Clutch [J] . R. Hibino M. Osawa K. Kono and K. Yoshizawa Journal of Dynamic Systems, Measurement, and Control . 2009,第1期

机译：变矩器锁止离合器滑移控制系统的鲁棒简化设计
2. Robust and Simplified Design of Slip Control System for Torque Converter Lock-Up Clutch [J] . R. Hibino, M. Osawa, K. Kono, Journal of Dynamic Systems, Measurement, and Control . 2009,第1期

机译：变矩器锁止离合器滑移控制系统的鲁棒简化设计
3. Robust Design for Torque Converter Clutch Slip Control System by means of H_∞ Control and LMI Approach [J] . Katsumi Kono, Hiroshi Itoh, Ryoichi Hibino, Toyota Technical Review . 2005,第1期

机译：基于H_∞控制和LMI方法的变矩器离合器滑移控制系统的鲁棒设计。
4. Adaptive Output Feedback Control System Design for Slip Control of a Lock-Up Clutch Time-Delay System [C] . Ikuro Mizumoto, Taro Takagi, Kenshi Yamanaka IFAC International Workshop on Adaptation and Learning in Control and Signal Processing . 2013

机译：自适应输出反馈控制系统设计，用于锁定离合器时滞系统的滑动控制
5. Design of an Anti-Jerk Controller for Both Locked and Slipping Torque Converter Conditions in a Vehicle [D] . Nadeem, Syed Ahmad. 2020

机译：车辆中锁定和滑动变矩器条件的抗混蛋控制器的设计
6. Optimal Fractional-Order Active Disturbance Rejection Controller Design for PMSM Speed Servo System [O] . Pengchong Chen, Ying Luo, Yibing Peng, 2021

机译：PMSM速度伺服系统的最佳分数阶主动干扰抑制控制器设计
7. Slip Control of a Lock-up Clutch via Optimal Output Regulation for LPV Systems [O] . Yoshio UMEMURA, Noboru SAKAMOTO 2014

机译：通过LPV系统的最佳输出调节滑动控制锁定离合器

Optimal Servo Design for Lock-Up Slip Control for Torque Converter—Nonlinear Output Regulation Approach

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