Event-triggered formation control of n-link networked stochastic robotic manipulators

This article proposes an event-triggered control framework to satisfy the tracking formation performance for a group of uncertain non-linear n-link robotic manipulators. The robotic manipulators are configured as a multi-agent system and they communicate over a directed graph (digraph). Furthermore,...

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Veröffentlicht in:	Proceedings of the Institution of Mechanical Engineers. Part I, Journal of systems and control engineering Journal of systems and control engineering, 2022-05, Vol.236 (5), p.927-943
Hauptverfasser:	Azarbahram, Ali, Pariz, Naser, Naghibi-Sistani, Mohammad-Bagher, Kardehi Moghaddam, Reihaneh
Format:	Artikel
Sprache:	eng
Schlagworte:	Actuators Graph theory Manipulators Mechanical engineering Multiagent systems Robot arms Robotics
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container_end_page	943
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container_title	Proceedings of the Institution of Mechanical Engineers. Part I, Journal of systems and control engineering
container_volume	236
creator	Azarbahram, Ali Pariz, Naser Naghibi-Sistani, Mohammad-Bagher Kardehi Moghaddam, Reihaneh
description	This article proposes an event-triggered control framework to satisfy the tracking formation performance for a group of uncertain non-linear n-link robotic manipulators. The robotic manipulators are configured as a multi-agent system and they communicate over a directed graph (digraph). Furthermore, the non-linear robotic manipulator-multi-agent systems are subject to stochastic environmental loads. By introducing extra virtual controllers in the final step of the backstepping design, a total number of n event-triggering mechanisms are introduced independently for each link of all the robotic manipulator agents to update the control inputs in a fully distributed manner. More precisely, the actuator of each link of a particular agent is capable of being updated independent of other link actuator updates. A rigorous proof of the convergence of all the closed-loop signals in probability is then given and the Zeno phenomenon is excluded for the control event-triggered architectures. The simulation experiments finally quantify the effectiveness of proposed approach in terms of reducing the number of control updates and handling the stochastic environmental loads.
doi_str_mv	10.1177/09596518211067888
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subjects	Actuators Graph theory Manipulators Mechanical engineering Multiagent systems Robot arms Robotics
title	Event-triggered formation control of n-link networked stochastic robotic manipulators
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