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- Title
Hierarchical predefined‐time control of teleoperation systems with state and communication constraints.
- Authors
Xu, Jing‐Zhe; Ge, Ming‐Feng; Ling, Guang; Liu, Feng; Park, Ju H.
- Abstract
The performance of the teleoperation system under multiple negative impacts cannot be easily predefined and regulated in general. This article aims to achieve the predefined performance of the teleoperation system under the effects of human operations, external disturbances, parametric uncertainties and communication constraints (including communication delays and quantized‐data communication). The predefined performance includes the state constraints (i.e., the joint‐space positions of the teleoperation system can be constrained in the predefined region throughout the control process) and predefined‐time set stability (i.e., the synchronization errors can be forced to reach an arbitrarily small neighborhood of the origin in a predefined time). To this end, a hierarchical predefined‐time control algorithm is newly designed via employing the error transformation method based on a novel limit‐time regulator. By using the barrier Lyapunov function, sufficient conditions on the control parameters are formally derived for guaranteeing the aforementioned performance. Finally, we present several simulation experiments to illustrate the effectiveness and advantages of the proposed main results.
- Subjects
TELECOMMUNICATION systems; REMOTE control; LYAPUNOV functions; ALGORITHMS; DATA transmission systems; ADAPTIVE fuzzy control
- Publication
International Journal of Robust & Nonlinear Control, 2021, Vol 31, Issue 18, p9652
- ISSN
1049-8923
- Publication type
Article
- DOI
10.1002/rnc.5789