Hierarchical finite-time cooperative control for teleoperation of networked disturbed mobile manipulators

• Published in: ISA transactions Vol. 140; pp. 266 - 278
• Main Authors: Fu, Jing, Xu, Jing-Zhe, Ge, Ming-Feng, Ding, Teng-Fei, Park, Ju H.
• Format: Journal Article
• Language: English
• Published: United States Elsevier Ltd 01.09.2023
• Subjects: Hierarchical finite-time cooperative control (HFTCC); Networked disturbed mobile manipulators (NDMMs); Teleoperation system; Telepresence; Teleoperation system; Telepresence; Hierarchical finite-time cooperative control (HFTCC); Networked disturbed mobile manipulators (NDMMs)
• ISSN: 0019-0578; 1879-2022
• DOI: 10.1016/j.isatra.2023.05.018

This paper investigates the teleoperation problem of networked disturbed mobile manipulators (NDMMs), in which the human operator remotely controls multiple slave mobile manipulators through a master manipulator. Each individual of the slave ones consisted of a nonholonomic mobile platform and a holonomic constrained manipulator that is mounted on the nonholonomic mobile platform. The cooperative control objective of the considered teleoperation problem includes: (1) synchronizing the states of the slave manipulators to the human-controlled master one; (2) forcing the mobile platforms of the slave ones to form a user-defined formation; (3) controlling the geometric center of all the platforms to track a reference trajectory. We present a hierarchical finite-time cooperative control (HFTCC) framework to achieve the cooperative control goal in a finite time. The presented framework includes the distributed estimator, the weight regulator and the adaptive local controller, where the estimator generates the estimated states of the desired formation and trajectory, the regulator selects the slave robot that the master one needs to track, as well as the presented adaptive local controller guarantees the finite-time convergence of the controlled states with model uncertainties and disturbances. Additionally, for improving the telepresence, a novel super twisting observer is presented to reconstruct the interaction force between the salve mobile manipulators and the remote operating environment on the master (i.e., the human) side. Finally, the effectiveness of the proposed control framework is demonstrated by several simulation results. •This paper solves the teleoperation problem of NDMMs in a distributed manner.•A novel HFTCC framework is proposed to achieve the finite-time cooperative control of the NDMMs in the teleoperation system.•A super twisting observer is designed for reconstructing the interaction force between the slave mobile manipulators and the task environment on the human operator.