Control-Configured-Vehicle Design and Implementation on an X-by-Wire Electric Vehicle
To improve the structure layout flexibility and performance of the X-by-wire (XBW) ground vehicle, the control configured vehicle (CCV) principle is implemented on an XBW electric vehicle in this paper. By including the electric control system design together with the mechanical component design for...
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| Published in | IEEE transactions on vehicular technology Vol. 67; no. 5; pp. 3755 - 3766 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.05.2018
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
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| Abstract | To improve the structure layout flexibility and performance of the X-by-wire (XBW) ground vehicle, the control configured vehicle (CCV) principle is implemented on an XBW electric vehicle in this paper. By including the electric control system design together with the mechanical component design for the final layout, the CCV enhances the structure layout flexibility of the XBW ground vehicle considerably. Under the CCV principle, the closed-loop stability of the vehicle lateral dynamics system is improved by the involved yaw control system. In this paper, a robust pole assignment yaw controller with the consideration of parametric uncertainties is used. A full XBW electric vehicle testbed is shown as an example to demonstrate the benefit of the CCV of improving the hardware layout flexibility. Under the CCV, all the XBW components can be located flexibly to any position to enhance the configuration of the electric wires, saving of the space, and convenience of the assembling. The discussion of the yaw moment demand in different cases shows how the mechanical components and electric control systems influence and benefit each other in the CCV. The experiments based on the testbed show the desirable efficiency of the proposed yaw controller. |
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| AbstractList | To improve the structure layout flexibility and performance of the X-by-wire (XBW) ground vehicle, the control configured vehicle (CCV) principle is implemented on an XBW electric vehicle in this paper. By including the electric control system design together with the mechanical component design for the final layout, the CCV enhances the structure layout flexibility of the XBW ground vehicle considerably. Under the CCV principle, the closed-loop stability of the vehicle lateral dynamics system is improved by the involved yaw control system. In this paper, a robust pole assignment yaw controller with the consideration of parametric uncertainties is used. A full XBW electric vehicle testbed is shown as an example to demonstrate the benefit of the CCV of improving the hardware layout flexibility. Under the CCV, all the XBW components can be located flexibly to any position to enhance the configuration of the electric wires, saving of the space, and convenience of the assembling. The discussion of the yaw moment demand in different cases shows how the mechanical components and electric control systems influence and benefit each other in the CCV. The experiments based on the testbed show the desirable efficiency of the proposed yaw controller. |
| Author | Xiang, Changle Hu, Jibin Ni, Jun |
| Author_xml | – sequence: 1 givenname: Jun orcidid: 0000-0003-2406-0326 surname: Ni fullname: Ni, Jun email: nijun_bit@163.com organization: Department of Mechanical Engineering, University of California, Berkeley, CA, USA – sequence: 2 givenname: Jibin surname: Hu fullname: Hu, Jibin email: hujibin1970@163.com organization: School of Mechanical Engineering, Beijing Institute of Technology, Beijing, China – sequence: 3 givenname: Changle surname: Xiang fullname: Xiang, Changle email: xiangcl@bit.edu.cn organization: School of Mechanical Engineering, Beijing Institute of Technology, Beijing, China |
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| SubjectTerms | Aircraft control configured vehicle Control configured vehicles Control systems Control systems design Dynamic stability Electric control Electric vehicle Electric vehicles Electric wire Flexibility Lateral stability Layout Layouts Mechanical components Pole placement Robust control Robustness unmanned ground vehicle Vehicle dynamics Wire X-by-wire Yaw |
| Title | Control-Configured-Vehicle Design and Implementation on an X-by-Wire Electric Vehicle |
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