Optimization of Mono- and Bi-Articular Parallel Elastic Elements for a Robotic Arm Performing a Pick-and-Place Task

Maxime Marchal; Raphaël Guy Furnémont; Bram Vanderborght; Ghilès Mostafaoui; Tom Verstraten

doi:10.1109/LRA.2023.3290518

Optimization of Mono- and Bi-Articular Parallel Elastic Elements for a Robotic Arm Performing a Pick-and-Place Task

Maxime Marchal, Raphaël Guy Furnémont, Bram Vanderborght, Ghilès Mostafaoui, Tom Verstraten

Onderzoeksoutput: Article › peer review

1 Citaat (Scopus)

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Actuation concepts such as Series Elastic Actuation (SEA), Parallel Elastic Actuation (PEA), and Biarticular Actuation (BA), which introduce elastic elements into the structure, have the potential to reduce the electrical energy consumption of a robot. This paper presents an optimization of the arrangement of springs for a 3 degrees of freedom robotic arm, with the aim of decreasing the electrical energy consumption for a given pick-and-place task. Through simulations and experimental validation, we show that the optimal configuration in terms of electrical energy consumption and complexity consists of rigid actuation on joint 1 and PEAs on joints 2 and 3. With this configuration, root mean square (RMS) and peak load torques for a specific pick-and-place task can be reduced respectively by up to 43% and 44% for joint 2, and by 15% and 21% for joint 3 compared to the configuration without springs.

Originele taal-2	English
Pagina's (van-tot)	5061 - 5068
Aantal pagina's	8
Tijdschrift	IEEE Robotics and Automation Letters
Volume	8
Nummer van het tijdschrift	8
DOI's	https://doi.org/10.1109/LRA.2023.3290518
Status	Published - 1 aug. 2023

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Funding Information:
Thisworkwas supported in part by EUTOPIA Co-Tutelle, and in part by theFWO Projects under Grants S001821N and 1505820N.

Publisher Copyright:
© 2016 IEEE.

Copyright:
Copyright 2023 Elsevier B.V., All rights reserved.

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abstract = "Actuation concepts such as Series Elastic Actuation (SEA), Parallel Elastic Actuation (PEA), and Biarticular Actuation (BA), which introduce elastic elements into the structure, have the potential to reduce the electrical energy consumption of a robot. This paper presents an optimization of the arrangement of springs for a 3 degrees of freedom robotic arm, with the aim of decreasing the electrical energy consumption for a given pick-and-place task. Through simulations and experimental validation, we show that the optimal configuration in terms of electrical energy consumption and complexity consists of rigid actuation on joint 1 and PEAs on joints 2 and 3. With this configuration, root mean square (RMS) and peak load torques for a specific pick-and-place task can be reduced respectively by up to 43% and 44% for joint 2, and by 15% and 21% for joint 3 compared to the configuration without springs.",

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AU - Marchal, Maxime

AU - Furnémont, Raphaël Guy

AU - Vanderborght, Bram

AU - Mostafaoui, Ghilès

AU - Verstraten, Tom

N1 - Funding Information: Thisworkwas supported in part by EUTOPIA Co-Tutelle, and in part by theFWO Projects under Grants S001821N and 1505820N. Publisher Copyright: © 2016 IEEE. Copyright: Copyright 2023 Elsevier B.V., All rights reserved.

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Optimization of Mono- and Bi-Articular Parallel Elastic Elements for a Robotic Arm Performing a Pick-and-Place Task

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