Nonsmooth stabilization for distributed electric vehicle based on direct yaw-moment control

Jinlin Sun; Shihong Ding; Shengdao Zhang; Wei Xing Zheng

doi:10.1109/ChiCC.2016.7554772

Nonsmooth stabilization for distributed electric vehicle based on direct yaw-moment control

Jinlin Sun, Shihong Ding, Shengdao Zhang, Wei Xing Zheng

Western Sydney University

Research output: Chapter in Book / Conference Paper › Conference Paper › peer-review

5 Citations (Scopus)

Abstract

The nonsmooth stabilization for the distributed electric vehicle is considered based on direct yaw-moment control. The proposed control system consists of a state observer, a upper yaw-moment controller and a lower torque distribution controller. First of all, a Luenberger observer is proposed to estimate the sideslip angle to avoid using expensive sensors. Then, the nonsmooth control technique is applied to construct the upper controller such that the desired side slip angle and yaw rate can be well tracked. Finally, the lower controller is developed to distribute the torques to the independent four wheels according to the desired yaw-moment obtained by the given upper controller. Simulation results verify the effectiveness of the designed yaw moment stabilizing law.

Original language	English
Title of host publication	Proceedings of 2016 35th Chinese Control Conference (CCC 2016), Chengdu, China, 27-29 July 2016
Publisher	IEEE
Pages	8850-8855
Number of pages	6
ISBN (Print)	9789881563910
DOIs	https://doi.org/10.1109/ChiCC.2016.7554772
Publication status	Published - 2016
Event	Chinese Control Conference - Duration: 27 Jul 2016 → …

Publication series

Name
ISSN (Print)	1934-1768

Conference

Conference	Chinese Control Conference
Period	27/07/16 → …

Keywords

control systems
electric automobiles
nonsmooth optimization

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10.1109/ChiCC.2016.7554772

Cite this

@inproceedings{37d06b41b03b4eebab825d06ce0e52a5,

title = "Nonsmooth stabilization for distributed electric vehicle based on direct yaw-moment control",

abstract = "The nonsmooth stabilization for the distributed electric vehicle is considered based on direct yaw-moment control. The proposed control system consists of a state observer, a upper yaw-moment controller and a lower torque distribution controller. First of all, a Luenberger observer is proposed to estimate the sideslip angle to avoid using expensive sensors. Then, the nonsmooth control technique is applied to construct the upper controller such that the desired side slip angle and yaw rate can be well tracked. Finally, the lower controller is developed to distribute the torques to the independent four wheels according to the desired yaw-moment obtained by the given upper controller. Simulation results verify the effectiveness of the designed yaw moment stabilizing law.",

keywords = "control systems, electric automobiles, nonsmooth optimization",

author = "Jinlin Sun and Shihong Ding and Shengdao Zhang and Zheng, {Wei Xing}",

year = "2016",

doi = "10.1109/ChiCC.2016.7554772",

language = "English",

isbn = "9789881563910",

publisher = "IEEE",

pages = "8850--8855",

booktitle = "Proceedings of 2016 35th Chinese Control Conference (CCC 2016), Chengdu, China, 27-29 July 2016",

note = "Chinese Control Conference ; Conference date: 27-07-2016",

}

TY - GEN

T1 - Nonsmooth stabilization for distributed electric vehicle based on direct yaw-moment control

AU - Sun, Jinlin

AU - Ding, Shihong

AU - Zhang, Shengdao

AU - Zheng, Wei Xing

PY - 2016

Y1 - 2016

N2 - The nonsmooth stabilization for the distributed electric vehicle is considered based on direct yaw-moment control. The proposed control system consists of a state observer, a upper yaw-moment controller and a lower torque distribution controller. First of all, a Luenberger observer is proposed to estimate the sideslip angle to avoid using expensive sensors. Then, the nonsmooth control technique is applied to construct the upper controller such that the desired side slip angle and yaw rate can be well tracked. Finally, the lower controller is developed to distribute the torques to the independent four wheels according to the desired yaw-moment obtained by the given upper controller. Simulation results verify the effectiveness of the designed yaw moment stabilizing law.

AB - The nonsmooth stabilization for the distributed electric vehicle is considered based on direct yaw-moment control. The proposed control system consists of a state observer, a upper yaw-moment controller and a lower torque distribution controller. First of all, a Luenberger observer is proposed to estimate the sideslip angle to avoid using expensive sensors. Then, the nonsmooth control technique is applied to construct the upper controller such that the desired side slip angle and yaw rate can be well tracked. Finally, the lower controller is developed to distribute the torques to the independent four wheels according to the desired yaw-moment obtained by the given upper controller. Simulation results verify the effectiveness of the designed yaw moment stabilizing law.

KW - control systems

KW - electric automobiles

KW - nonsmooth optimization

UR - http://handle.uws.edu.au:8081/1959.7/uws:37550

UR - http://ccc2016.swjtu.edu.cn/236-1.shtml

U2 - 10.1109/ChiCC.2016.7554772

DO - 10.1109/ChiCC.2016.7554772

M3 - Conference Paper

SN - 9789881563910

SP - 8850

EP - 8855

BT - Proceedings of 2016 35th Chinese Control Conference (CCC 2016), Chengdu, China, 27-29 July 2016

PB - IEEE

T2 - Chinese Control Conference

Y2 - 27 July 2016

ER -

Nonsmooth stabilization for distributed electric vehicle based on direct yaw-moment control

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