Analytical and experimental decentralized adaptive control of a high-degrees-of-freedom robot manipulator

Alexander Bertino; Peiman Naseradinmousavi; Atul Kelkar

doi:10.1115/1.4049795

Analytical and experimental decentralized adaptive control of a high-degrees-of-freedom robot manipulator

Alexander Bertino
, Peiman Naseradinmousavi
, Atul Kelkar

Watson Dean's Office

Binghamton University

San Diego State University

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

In this paper, we study the analytical and experimental control of a seven degrees-of-freedom (7DOF) robot manipulator. A model-free decentralized adaptive control strategy is presented for the tracking control of the manipulator. The problem formulation and experimental results demonstrate the computational efficiency and simplicity of the proposed method. The results presented here are one of the first known experiments on a redundant 7DOF robot. The efficacy of the adaptive decentralized controller is demonstrated experimentally by using the Baxter robot to track a desired trajectory. Simulation and experimental results clearly demonstrate the versatility, tracking performance, and computational efficiency of this method.

Original language	English
Article number	071007
Journal	Journal of Dynamic Systems, Measurement and Control, Transactions of the ASME
Volume	143
Issue number	7
DOIs	https://doi.org/10.1115/1.4049795
State	Published - Jul 2021

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abstract = "In this paper, we study the analytical and experimental control of a seven degrees-of-freedom (7DOF) robot manipulator. A model-free decentralized adaptive control strategy is presented for the tracking control of the manipulator. The problem formulation and experimental results demonstrate the computational efficiency and simplicity of the proposed method. The results presented here are one of the first known experiments on a redundant 7DOF robot. The efficacy of the adaptive decentralized controller is demonstrated experimentally by using the Baxter robot to track a desired trajectory. Simulation and experimental results clearly demonstrate the versatility, tracking performance, and computational efficiency of this method.",

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AB - In this paper, we study the analytical and experimental control of a seven degrees-of-freedom (7DOF) robot manipulator. A model-free decentralized adaptive control strategy is presented for the tracking control of the manipulator. The problem formulation and experimental results demonstrate the computational efficiency and simplicity of the proposed method. The results presented here are one of the first known experiments on a redundant 7DOF robot. The efficacy of the adaptive decentralized controller is demonstrated experimentally by using the Baxter robot to track a desired trajectory. Simulation and experimental results clearly demonstrate the versatility, tracking performance, and computational efficiency of this method.

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Analytical and experimental decentralized adaptive control of a high-degrees-of-freedom robot manipulator

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