A non‐linear fractional‐order type‐3 fuzzy control for enhanced path‐tracking performance of autonomous cars-Reference-Cited by-同舟云学术

A non‐linear fractional‐order type‐3 fuzzy control for enhanced path‐tracking performance of autonomous cars

Published:2023-09-08 Issue:1 Volume:18 Page:40-54
ISSN:1751-8644
Container-title:IET Control Theory & Applications
language:en
Short-container-title:IET Control Theory & Appl

Author:

Mohammadzadeh Ardashir¹²^ORCID,Taghavifar Hamid³^ORCID,Zhang Chunwei⁴,Alattas Khalid A.⁵^ORCID,Liu Jinping⁶,Vu Mai The⁷

Affiliation:

1. Multidisciplinary Center for Infrastructure Engineering Shenyang University of Technology Shenyang China

2. Department of Electrical Engineering University of Bonab Bonab Iran

3. Department of Mechanical Industrial and Aerospace Engineering, Concordia University Montreal Canada

4. School of Marine Science and Engineering South China University of Technology Guangzhou P.R. China

5. Department of Computer Science and Artificial Intelligence College of Computer Science and Engineering, University of Jeddah Jeddah Saudi Arabia

6. College of Information Science and Engineering Hunan Normal University China

7. School of Intelligent Mechatronics Engineering Sejong University Seoul South Korea

Abstract

AbstractPath‐tracking and lane‐keeping efficiency of driverless cars remain critical characteristics of the efficient and safe deployment of such vehicles in future intelligent transportation systems. This study introduces a robust type‐3 (T3) fuzzy controller implementation for the path‐tracking task of driverless cars during critical driving conditions and subject to exogenous disturbances. Unlike many existing control paradigms, the proposed scheme is independent of the parameter information and assumes the system dynamics are unknown and non‐linear. Control inputs are constructed to improve robustness by eliminating the error bounds while ensuring stability by leveraging the Lyapunov stability theorem and Barbalat's lemma. Also, a predicate scheme based on non‐linear predictive control technique is introduced to enhance the lateral displacement. Based on the obtained results, the schemed controller exhibits competitive effectiveness in path‐tracking tasks, and strong efficiency under various road conditions, parametric uncertainties, and unknown disturbances.

Funder

Department of Science and Technology of Shandong Province

Publisher

Institution of Engineering and Technology (IET)

Subject

Electrical and Electronic Engineering,Control and Optimization,Computer Science Applications,Human-Computer Interaction,Control and Systems Engineering

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