Multilateral teleoperation over communication time delay using the time-domain passivity approach

Ryu, Jee-Hwan; Ha-Van, Quang; Jafari, Aghil

doi:10.1109/TCST.2019.2948126

Multilateral teleoperation over communication time delay using the time-domain passivity approach

Ryu, Jee-Hwan; Ha-Van, Quang; Jafari, Aghil

Authors

Jee-Hwan Ryu

Quang Ha-Van

Dr Aghil Jafari Aghil.Jafari@uwe.ac.uk
Senior Lecturer in Robotics

Abstract

A general framework to stabilize multilateral teleoperation system over a communication time delay based on the well-known time-domain passivity approach (TDPA) is proposed. The uniqueness of this framework is that it is independent of the amount of communication time delay, the multilateral control architecture, and the number of masters and slaves. The multilateral system was first decoupled into subsystems with respect to each terminal by identifying the input signals' contributions to the output terminals, which was not straightforward due to the coupled nature of the multilateral teleoperation system. The decoupled subsystems were then converted into an electrical circuit using a mechanical-electrical analogy. Time-delay power network (TDPN) was introduced to clarify active energy sources from the time delay and passivity observer/passivity controller (PO/PC) was utilized to dissipate those active energies. A less-conservative method compared with prior work was proposed to guarantee the stability. Experiments with a trilateral teleoperation system and with a multilateral teleoperation system with a dual master and dual slave were conducted to validate the proposed framework.

Citation

Ryu, J., Ha-Van, Q., & Jafari, A. (2020). Multilateral teleoperation over communication time delay using the time-domain passivity approach. IEEE Transactions on Control Systems Technology, 28(6), 2705 - 2712. https://doi.org/10.1109/TCST.2019.2948126

Journal Article Type	Article
Acceptance Date	Sep 30, 2019
Online Publication Date	Nov 11, 2019
Publication Date	Nov 1, 2020
Deposit Date	Oct 17, 2019
Publicly Available Date	Dec 12, 2019
Journal	IEEE Transactions on Control Systems Technology
Print ISSN	1063-6536
Electronic ISSN	1558-0865
Publisher	Institute of Electrical and Electronics Engineers
Peer Reviewed	Peer Reviewed
Volume	28
Issue	6
Pages	2705 - 2712
DOI	https://doi.org/10.1109/TCST.2019.2948126
Keywords	Control design; Force feedback; Haptic interfaces; Robust stability; Stability analysis; Telerobotics; Force; Delay effects; Time-domain analysis; Stability criteria; Computer architecture; Force measurement
Public URL	https://uwe-repository.worktribe.com/output/3860587

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