Disturbance observer–based event-triggered tracking control of networked robot manipulator-Reference-Cited by-同舟云学术

Disturbance observer–based event-triggered tracking control of networked robot manipulator

Published:2020-04-14 Issue:5-6 Volume:53 Page:892-898
ISSN:0020-2940
Container-title:Measurement and Control
language:en
Short-container-title:Measurement and Control

Author:

Bu Wei¹,Li Ting²^ORCID,Yang Jun²,Yi Yang³^ORCID

Affiliation:

1. Institute of Science and Technology and The Key Laboratory of Biotechnology for Medicinal Plants of Jiangsu Province, Jiangsu Normal University, Xuzhou, China

2. Key Laboratory of Measurement and Control of CSE, Ministry of Education, School of Automation, Southeast University, Nanjing, China

3. College of Information Engineering, Yangzhou University, Yangzhou, China

Abstract

We investigate the event-triggered tracking control of networked manipulator in the presence of external disturbance and a variety of system uncertainties. The event-triggered controller is designed by the nonlinear disturbance observer–based control approach, which can dynamically compensate for both errors caused by disturbances and the undesirable effects caused by event-triggering rules. A rigorous Lyapunov stability analysis method is proposed to show that the boundedness of all the signals in the closed-loop system can be guaranteed while in the absence of the input-to-state stability assumption related to measurement errors, tracking error can be constrained to an arbitrarily small set without escaping. Finally, by some simulation results, the feasibility and effectiveness of the proposed control approach is demonstrated.

Publisher

SAGE Publications

Subject

Applied Mathematics,Control and Optimization,Instrumentation

Link

http://journals.sagepub.com/doi/pdf/10.1177/0020294020911084

Reference28 articles.

1. On Frequency Sensitivity and Mode Orthogonality of Flexible Robotic Manipulators

2. Adaptive Task-Space Cooperative Tracking Control of Networked Robotic Manipulators Without Task-Space Velocity Measurements

3. Fixed-Time Attitude Tracking Control for Spacecraft With Input Quantization

4. Adaptive Neural Network Finite-Time Output Feedback Control of Quantized Nonlinear Systems

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