Data-Driven Lateral Fault-tolerance Control of Autonomous Vehicle System Using Reinforcement Learning

被引：0

作者：

Li, Yan ^{[1
]}

Zhang, Hao ^{[1
]}

Wang, Zhuping ^{[1
]}

机构：

[1] Tongji Univ, Dept Control Sci & Engn, Shanghai 200092, Peoples R China

来源：

2020 IEEE 16TH INTERNATIONAL CONFERENCE ON CONTROL & AUTOMATION (ICCA) | 2020年

基金：

中国国家自然科学基金;

关键词：

ADAPTIVE OPTIMAL-CONTROL; CONTINUOUS-TIME SYSTEMS; PATH-FOLLOWING CONTROL; TRACKING CONTROL; STABILIZATION;

D O I：

暂无

中图分类号：

TP [自动化技术、计算机技术];

学科分类号：

0812 ;

摘要：

In this paper, a data driven lateral fault-tolerant control (LFTC) method is proposed for four wheels drive vehicles, which considering both vehicle velocity and trajectory tracking performance. The novel design of the lateral control employs with zero-sum game and adaptive dynamics programming technique to solve the Riccati equation without requiring the knowledge of system, only using online data. The LFTC consists of the data driven off-policy and adaptive control. The adaptive parameters adjusted online to compensate the actuator faults automatically. The tracking system is asymptotically stable with the disturbance attenuation level gamma. Finally, simulation is provided to show the effectiveness of the proposed method.

引用

页码：1410 / 1415

页数：6

共 50 条

[31] A Fault Tolerant Lateral Control Strategy for an Autonomous Four Wheel Driven Electric Vehicle
Venkita, Seshan Ramanathan
Boulkroune, Boulaid
Mishra, Anurodh
van Nunen, Ellen
[J]. 2020 IEEE INTELLIGENT VEHICLES SYMPOSIUM (IV), 2020, : 1492 - 1497
[32] Data-driven optimal control of wind turbines using reinforcement learning with function approximation
Peng, Shenglin
Feng, Qianmei
[J]. COMPUTERS & INDUSTRIAL ENGINEERING, 2023, 176
[33] A Customisable Longitudinal Controller of Autonomous Vehicle using Data-driven MPC
Rokonuzzaman, Mohammad
Mohajer, Navid
Mohamed, Shady
Nahavandi, Saeid
[J]. 2021 IEEE INTERNATIONAL CONFERENCE ON SYSTEMS, MAN, AND CYBERNETICS (SMC), 2021, : 1367 - 1373
[34] Deicing System Based on Fault-Tolerance Control for Aircraft
Tao, Jun
Xu, Huibin
Tao, Jianwu
[J]. 2008 IEEE INTERNATIONAL CONFERENCE ON INDUSTRIAL TECHNOLOGY, VOLS 1-5, 2008, : 485 - 488
[35] Fault-tolerance for autonomous decentralized multi-legged robot system
Suzuki, T
Inagaki, S
Yuasa, H
Arai, T
[J]. INTELLIGENT AUTONOMOUS SYSTEMS 7, 2002, : 325 - 332
[36] Autonomous Surface Vehicle Control Method Using Deep Reinforcement Learning
Zhang, Shang
Yang, Rui
Chen, Zhen
Li, Ming
[J]. 2020 CHINESE AUTOMATION CONGRESS (CAC 2020), 2020, : 1664 - 1668
[37] Data-Driven Inverse Reinforcement Learning Control for Linear Multiplayer Games
Lian, Bosen
Donge, Vrushabh S.
Lewis, Frank L.
Chai, Tianyou
Davoudi, Ali
[J]. IEEE TRANSACTIONS ON NEURAL NETWORKS AND LEARNING SYSTEMS, 2024, 35 (02) : 2028 - 2041
[38] Active fault-tolerance of the unmanned aerial vehicle automatic control systems
Vuong Anh Trung
Nguyen Van Thinh
Nguyen Duc Thanh
Nguyen Quang Vinh
Tran Thuan Hoang
[J]. INTERNATIONAL JOURNAL OF AVIATION AERONAUTICS AND AEROSPACE, 2020, 7 (04):
[39] Data-driven Control of Autonomous Vehicle using Recurrent Fuzzy Neural Network Combined with PID Method
Han, Yu
Zhu, Qidan
Xiao, Yao
[J]. 2018 37TH CHINESE CONTROL CONFERENCE (CCC), 2018, : 5239 - 5244
[40] Data-driven learning and control of nonlinear system dynamics
Becerra-Mora, Yeyson A.
Acosta, Jose angel
[J]. NONLINEAR DYNAMICS, 2024,

← 1 2 3 4 5 →