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- Title
Robust control design for teleoperation of multiple mobile manipulators under time delays.
- Authors
Ahmad, Usman; Pan, Ya‐Jun; Shen, Henghua
- Abstract
Summary: This article addresses a novel multilateral teleoperation control scheme for single‐master multiple slave systems, which can be extended to n masters and n slaves without the loss of generality, where the master is a m degrees of freedom (DOF) manipulator arm and the slaves are m DOF mobile manipulators. The human operator operates the master robot to remotely control the slaves handling a target object. The master position signal is transmitted to the slave side to generate a desired object trajectory as well as the reference mobile base velocity. An adaptive robust controller is designed for the slaves to follow the desired trajectory from the master, which not only provides the excellent trajectory tracking but also optimize the internal force distribution of the object. A null space controller is designed for the mobile platforms of the mobile manipulators to achieve the velocity consensus while achieving the main task of object transportation. The novel control design uses the transmission of the environmental force feedback over the communication channel by the estimated parameters of the environment, which helps retain the stability of the overall system. The environmental force is predicted on the master side based on the estimated environmental parameters. The proposed control design can simultaneously achieve the objectives of stability, synchronization, and optimal internal force distribution. The simulation results of a single‐master and three slaves teleoperation system validate the efficacy of the proposed control algorithm.
- Subjects
ROBUST control; REMOTE control; MANIPULATORS (Machinery); TRACKING control systems; MOBILE operating systems; DEGREES of freedom
- Publication
International Journal of Robust & Nonlinear Control, 2020, Vol 30, Issue 16, p6454
- ISSN
1049-8923
- Publication type
Article
- DOI
10.1002/rnc.5106