Torsional Oscillations Control of Integrated Motor-Transmission System Over Controller Area Network

Torsional Oscillations Control of Integrated Motor-Transmission System Over Controller Area Network

Integrated motor-transmission (IMT) system is prone to suffer from torsional oscillations due to its fast dynamic behavior and weak damping characteristics. Meanwhile, signal communication between sensors, controllers and actuators via controller area network (CAN) that introduces time-varying delay...

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Main Authors: Wei Li, Wei Zhu, Xiaoyuan Zhu, Youzhong Xu, Jin Yang, Zongbao Li
Format: Article
Language:English
Published: IEEE 2020-01-01
Series:IEEE Access
Subjects:
Torsional oscillations
robust energy-to-peak control
polytopic inclusion approach
controller area network
integrated motor-transmission
Online Access:https://ieeexplore.ieee.org/document/8945178/
id doaj-10a3e4507f53446b964e5fa3e0c9240d
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spelling doaj-10a3e4507f53446b964e5fa3e0c9240d2021-03-30T01:11:07ZengIEEEIEEE Access2169-35362020-01-0184397440710.1109/ACCESS.2019.29628288945178Torsional Oscillations Control of Integrated Motor-Transmission System Over Controller Area NetworkWei Li0https://orcid.org/0000-0001-5093-6163Wei Zhu1https://orcid.org/0000-0001-5974-5363Xiaoyuan Zhu2https://orcid.org/0000-0001-7012-5237Youzhong Xu3https://orcid.org/0000-0002-6259-2625Jin Yang4https://orcid.org/0000-0003-1084-8024Zongbao Li5https://orcid.org/0000-0002-6755-5698Logistics Engineering College, Shanghai Maritime University, Shanghai, ChinaLogistics Engineering College, Shanghai Maritime University, Shanghai, ChinaMerchant Marine College, Shanghai Maritime University, Shanghai, ChinaKey Lab of Automotive NVH and Reliability of Anhui, Wuhu, ChinaKey Lab of Automotive NVH and Reliability of Anhui, Wuhu, ChinaKey Lab of Automotive NVH and Reliability of Anhui, Wuhu, ChinaIntegrated motor-transmission (IMT) system is prone to suffer from torsional oscillations due to its fast dynamic behavior and weak damping characteristics. Meanwhile, signal communication between sensors, controllers and actuators via controller area network (CAN) that introduces time-varying delays, could also stimulate torsional oscillations in IMT system. Thus, this paper is intended to develop a robust controller to suppress these oscillations for IMT system during vehicle speed tracking. Considering the coupling effects of CAN-induced time-varying delays and event-driven manner of the controller nodes, as well as possible sampling period change, a delay-free discrete time model is built for IMT system by using polytopic inclusion approach and system augmentation technique. Based on this model, an energy-to-peak performance based robust controller is then developed for IMT system over CAN. It can achieve stable as well as good torsional oscillations suppression performance in spite of CAN-induced time-varying delays, sampling period change and also measurement noises. Finally, with a detailed CAN model developed by using SimEvent, conventional proportional-integral (PI) controller and energy-to-peak controller that designed with fixed sampling period are utilized in the comparative tests to show the effectiveness as well as performance of proposed torsional oscillations controller.https://ieeexplore.ieee.org/document/8945178/Torsional oscillationsrobust energy-to-peak controlpolytopic inclusion approachcontroller area networkintegrated motor-transmission
collection DOAJ
language English
format Article
sources DOAJ
author Wei Li
Wei Zhu
Xiaoyuan Zhu
Youzhong Xu
Jin Yang
Zongbao Li
spellingShingle Wei Li
Wei Zhu
Xiaoyuan Zhu
Youzhong Xu
Jin Yang
Zongbao Li
Torsional Oscillations Control of Integrated Motor-Transmission System Over Controller Area Network
IEEE Access
Torsional oscillations
robust energy-to-peak control
polytopic inclusion approach
controller area network
integrated motor-transmission
author_facet Wei Li
Wei Zhu
Xiaoyuan Zhu
Youzhong Xu
Jin Yang
Zongbao Li
author_sort Wei Li
title Torsional Oscillations Control of Integrated Motor-Transmission System Over Controller Area Network
title_short Torsional Oscillations Control of Integrated Motor-Transmission System Over Controller Area Network
title_full Torsional Oscillations Control of Integrated Motor-Transmission System Over Controller Area Network
title_fullStr Torsional Oscillations Control of Integrated Motor-Transmission System Over Controller Area Network
title_full_unstemmed Torsional Oscillations Control of Integrated Motor-Transmission System Over Controller Area Network
title_sort torsional oscillations control of integrated motor-transmission system over controller area network
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2020-01-01
description Integrated motor-transmission (IMT) system is prone to suffer from torsional oscillations due to its fast dynamic behavior and weak damping characteristics. Meanwhile, signal communication between sensors, controllers and actuators via controller area network (CAN) that introduces time-varying delays, could also stimulate torsional oscillations in IMT system. Thus, this paper is intended to develop a robust controller to suppress these oscillations for IMT system during vehicle speed tracking. Considering the coupling effects of CAN-induced time-varying delays and event-driven manner of the controller nodes, as well as possible sampling period change, a delay-free discrete time model is built for IMT system by using polytopic inclusion approach and system augmentation technique. Based on this model, an energy-to-peak performance based robust controller is then developed for IMT system over CAN. It can achieve stable as well as good torsional oscillations suppression performance in spite of CAN-induced time-varying delays, sampling period change and also measurement noises. Finally, with a detailed CAN model developed by using SimEvent, conventional proportional-integral (PI) controller and energy-to-peak controller that designed with fixed sampling period are utilized in the comparative tests to show the effectiveness as well as performance of proposed torsional oscillations controller.
topic Torsional oscillations
robust energy-to-peak control
polytopic inclusion approach
controller area network
integrated motor-transmission
url https://ieeexplore.ieee.org/document/8945178/
work_keys_str_mv AT weili torsionaloscillationscontrolofintegratedmotortransmissionsystemovercontrollerareanetwork
AT weizhu torsionaloscillationscontrolofintegratedmotortransmissionsystemovercontrollerareanetwork
AT xiaoyuanzhu torsionaloscillationscontrolofintegratedmotortransmissionsystemovercontrollerareanetwork
AT youzhongxu torsionaloscillationscontrolofintegratedmotortransmissionsystemovercontrollerareanetwork
AT jinyang torsionaloscillationscontrolofintegratedmotortransmissionsystemovercontrollerareanetwork
AT zongbaoli torsionaloscillationscontrolofintegratedmotortransmissionsystemovercontrollerareanetwork
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