Finite-Time Switching Control of Nonholonomic Mobile Robots for Moving Target Tracking Based on Polar Coordinates

, , , &
Complexity 2018:1-9 (2018)
  Copy   BIBTEX

Abstract

In this paper, finite-time tracking problem of nonholonomic mobile robots for a moving target is considered. First of all, polar coordinates are used to characterize the distance and azimuth between the moving target and the robot. Then, based on the distance and azimuth transported from the sensor installed on the robot, a finite-time tracking control law is designed for the nonholonomic mobile robot by the switching control method. Rigorous proof shows that the tracking error converges to zero in a finite time. Numerical simulation demonstrates the effectiveness of the proposed control method.

Categories

Add categories

Keywords

Reprint years

DOI

10.1155/2018/7360643

Other Versions

No versions found

Links

PhilArchive

    This entry is not archived by us. If you are the author and have permission from the publisher, we recommend that you archive it. Many publishers automatically grant permission to authors to archive pre-prints. By uploading a copy of your work, you will enable us to better index it, making it easier to find.

    Upload a copy of this work     Papers currently archived: 106,168

External links

Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

Finite-Time Switched Second-Order Sliding-Mode Control of Nonholonomic Wheeled Mobile Robot Systems.Hao Ce, Wang Hongbin, Cheng Xiaoyan, Zhou Zhen, Ge Shungang & Hu Zhongquan - 2018 - Complexity 2018:1-10.
Intelligent Controllers for Multirobot Competitive and Dynamic Tracking.Mei Liu, Shuai Li, Xiaodi Li, Long Jin, Chenfu Yi & Zhiguan Huang - 2018 - Complexity 2018:1-12.
Robust Stabilization of Extended Nonholonomic Chained-Form Systems with Dynamic Nonlinear Uncertain Terms by Using Active Disturbance Rejection Control.Hua Chen, Xiaoying Sun, Shen Xu & Yuxuan Wang - 2019 - Complexity 2019:1-12.
Adaptive Visually Servoed Tracking Control for Wheeled Mobile Robot with Uncertain Model Parameters in Complex Environment.Fujie Wang, Yi Qin, Fang Guo, Bin Ren & John T. W. Yeow - 2020 - Complexity 2020:1-13.
Adaptive Event-Triggered Finite-Time Tracking of Output-Constrained High-Order Nonlinear Systems with Time-Varying Powers.Fan Liu & You Wu - 2022 - Complexity 2022:1-15.
A Q-Learning-Based Parameters Adaptive Algorithm for Formation Tracking Control of Multi-Mobile Robot Systems.Chen Zhang, Wen Qin, Ming-Can Fan, Ting Wang & Mou-Quan Shen - 2022 - Complexity 2022:1-19.
Super-Twisting Nonsingular Terminal Sliding Mode-Based Robust Impedance Control of Robots.Yixuan Wang, Tairen Sun & Jiantao Yang - 2022 - Complexity 2022:1-6.
Finite-Time Tracking Control for Nonstrict-Feedback State-Delayed Nonlinear Systems with Full-State Constraints and Unmodeled Dynamics.Yangang Yao, Jieqing Tan & Jian Wu - 2020 - Complexity 2020:1-18.
Neural Learning Control of Flexible Joint Manipulator with Predefined Tracking Performance and Application to Baxter Robot.Min Wang, Huiping Ye & Zhiguang Chen - 2017 - Complexity:1-14.
Adaptive Fast Nonsingular Fixed-Time Tracking Control for Robot Manipulators.Huihui Pan & Guangming Zhang - 2021 - Complexity 2021:1-16.

Analytics

Added to PP
2018-10-23

Downloads
43 (#578,341)

6 months
7 (#614,157)

Historical graph of downloads
How can I increase my downloads?

Author's Profile

Lei Chen
Beijing Normal University

Citations of this work

Add more citations

References found in this work

No references found.

Add more references