Fuzzy control system design for wheel slip prevention and tracking of desired speed profile in electric trains

被引：28

作者：

Moaveni B. ^{[1
]}

Rashidi Fathabadi F. ^{[2
]}

Molavi A. ^{[3
]}

机构：

[1] Center of excellence for Modelling and Control of Complex Systems, Faculty of Electrical Engineering, K. N. Toosi University of Technology, Tehran

[2] Department of Electrical and Computer Engineering, Western Michigan University, MI

[3] Institute of Robotics and Industrial Informatics, Polytechnical University of Catalonia, Barcelona

来源：

Asian Journal of Control | 2022年 / 24卷 / 01期

关键词：

Compendex;

D O I：

10.1002/asjc.2472

中图分类号：

学科分类号：

摘要：

This study proposes an anti-slip control system for electric trains based on the fuzzy logic theory, which prevents the wheels from slipping during the acceleration and simultaneously tracks the desired speed profile. To improve the control performance, the train longitudinal velocity and the slip ratio are estimated. By using a field-oriented control (FOC), the angular speed of the traction motor is controlled. The fuzzy control system determines the desired angular speed of the traction motor as the reference input of FOC to obtain the desired slip ratio and track the desired speed profile. Simulation results show the effectiveness of the control system in various wheel–rail surface conditions based on the real parameters of ER24PC locomotive. © 2020 Chinese Automatic Control Society and John Wiley & Sons Australia, Ltd

引用

页码：388 / 400

页数：12

共 50 条

[31] A robust wheel slip ratio control design combining hydraulic and regenerative braking systems for in-wheel-motors-driven electric Vehicles
Wang, Bin
Huang, Xiaoyu
Wang, Junmin
Guo, Xuexun
Zhu, Xiaoyuan
JOURNAL OF THE FRANKLIN INSTITUTE-ENGINEERING AND APPLIED MATHEMATICS, 2015, 352 (02): : 577 - 602
[32] Robust model predictive anti-slip controller and speed profile tracking of an electric train based on LMI approach
Molavi, Ali
Rashidi Fathabadi, Fatemeh
INTERNATIONAL JOURNAL OF DYNAMICS AND CONTROL, 2022, 10 (06) : 1943 - 1954
[33] Robust model predictive anti-slip controller and speed profile tracking of an electric train based on LMI approach
Ali Molavi
Fatemeh Rashidi Fathabadi
International Journal of Dynamics and Control, 2022, 10 : 1943 - 1954
[34] The Design of Anti-slip Control for In-wheel motor at the Limited Conditions in a Four In-wheel-motor Drive Electric Vehicle
Dong, Z.
He, P.
Han, C.
Qi, Z.
Deng, Z.
Qiu, H.
2012 19TH INTERNATIONAL CONFERENCE MECHATRONICS AND MACHINE VISION IN PRACTICE (M2VIP), 2012, : 526 - 530
[35] Design of Electric Orchard Vehicle Four-Wheel Steering Control System
Mao Xu
Wang Xin
Zhang Junchao
Chen Kai
Zhao Jiang
Zhang Yu
MATERIALS PROCESSING AND MANUFACTURING III, PTS 1-4, 2013, 753-755 : 1966 - 1969
[36] Design of the Control System for a Four-wheel Driven Micro Electric Vehicle
Ma, Yan
Zhang, Kangkang
Gu, Jing
Li, Jianqiu
Lu, Dongbin
2009 IEEE VEHICLE POWER AND PROPULSION CONFERENCE, VOLS 1-3, 2009, : 1590 - 1593
[37] Sliding mode based optimal wheel slip ratio controller for a traction control system of electric vehicle
Ge, YH
Liu, SR
Ni, GZ
DYNAMICS OF CONTINUOUS DISCRETE AND IMPULSIVE SYSTEMS-SERIES B-APPLICATIONS & ALGORITHMS, 2005, 2 : 726 - 729
[38] Freight train speed active disturbance rejection tracking and wheel anti-slip based on fuzzy neural network with DBO optimization
Yi, LingZhi
Jiang, WenBo
Yi, Yu
Li, JianLin
Xie, Cheng
ELECTRICAL ENGINEERING, 2024, 106 (01) : 631 - 644
[39] Freight train speed active disturbance rejection tracking and wheel anti-slip based on fuzzy neural network with DBO optimization
LingZhi Yi
WenBo Jiang
Yu Yi
JianLin Li
Cheng Xie
Electrical Engineering, 2024, 106 : 631 - 644
[40] Application of fuzzy-PID control in system of photo-electric tracking
College of Electronic and Information Engineering, Northwest Polytechnical University, Xi'an 710072, China
不详
Guangdian Gongcheng, 2006, 5 (12-16):

← 1 2 3 4 5 →