Adaptive Observer-Based Output Feedback Control for Two-Wheeled Self-Balancing Robot-Reference-Cited by-同舟云学术

Adaptive Observer-Based Output Feedback Control for Two-Wheeled Self-Balancing Robot

Published:2020-01-29 Issue: Volume:2020 Page:1-16
ISSN:1024-123X
Container-title:Mathematical Problems in Engineering
language:en
Short-container-title:Mathematical Problems in Engineering

Author:

Jmel Ines¹,Dimassi Habib¹²^ORCID,Hadj Said Salim¹,M’Sahli Faouzi¹

Affiliation:

1. University of Monastir, Ecole National d’Ingénieurs de Monastir, LAS2E 5019, Monastir, Tunisia

2. University of Sousse, Institut Supérieur des Sciences Appliquées et de Technologie de Sousse, Sousse, Tunisia

Abstract

In this paper, an output feedback control approach based on an adaptive observer is developed for the two-wheeled self-balancing robot subject to unknown parameters (with nonlinear parameterization). Firstly, a high gain control method with state feedback is proposed. Then, an adaptive observer is designed to estimate the unknown state and the unknown body mass of the robot which influences the height of the center of mass. Next, the adaptive observer is combined with the designed high gain controller: a Lyapunov-based stability analysis of the closed loop system is developed to establish the convergence of the tracking error as well as estimation and adaptation errors. Simulation results assert the performance of the developed tracking control scheme for the two-wheeled self-balancing robot subject to mass variation.

Publisher

Hindawi Limited

Subject

General Engineering,General Mathematics

Link

http://downloads.hindawi.com/journals/mpe/2020/5162172.pdf

Reference27 articles.

1. Robust tracking control for self-balancing mobile robots using disturbance observer

2. A nonlinear disturbance observer for robotic manipulators

3. Robust Tracking Control Using Fuzzy Disturbance Observer for Wheeled Mobile Robots with Skidding and Slipping

4. Observer design for a class of MIMO nonlinear systems

5. Adaptive Neural Sliding Mode Control of Nonholonomic Wheeled Mobile Robots With Model Uncertainty

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