Full-body Grasping Strategy for Planar Underactuated Soft Manipulators using Passivity-based Control

Hoang Chu; Brandon J. Caasenbrood; Mahboubeh Keyvanara; Irene A. Kuling; Henk Nijmeijer

doi:10.1109/RoboSoft55895.2023.10122015

Full-body Grasping Strategy for Planar Underactuated Soft Manipulators using Passivity-based Control

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/Congresprocedure › Conferentiebijdrage › Academic › peer review

3 Citaten (Scopus)

73 Downloads (Pure)

Samenvatting

Soft robotics is a branch of robotics that aims to emulate nature by exploring so-called soft materials. By utilizing the embedded softness, various degrees of dexterity in grasping can be achieved without the need for advanced controllers. However, when compared to nature (and modern rigid robots), comparable levels of dexterity and object manipulation are still lacking. For example, when considering the elephant's trunk, whole-body manipulation and sensory feedback are explored to achieve simultaneous, robust, and adaptive grasping. In this work, we incorporate closed-loop control into soft robotic grasping. Using passivity-based control, we achieve whole-body grasping for planar, slender, soft manipulators with torque actuation. Our approach also accounts for the underactuation present in these systems and adapts the grasping strategy accordingly. Furthermore, we explore damping injection without velocity measurements to enhance the attenuation of undesired oscillatory motion. The performance of the closed-loop system is evaluated through simulation and experiments.

Originele taal-2	Engels
Titel	2023 IEEE International Conference on Soft Robotics, RoboSoft 2023
Uitgeverij	Institute of Electrical and Electronics Engineers
Aantal pagina's	7
ISBN van elektronische versie	979-8-3503-3222-3
DOI's	https://doi.org/10.1109/RoboSoft55895.2023.10122015
Status	Gepubliceerd - 2023
Evenement	2023 IEEE International Conference on Soft Robotics, RoboSoft 2023 - Singapore, Singapore Duur: 3 apr. 2023 → 7 apr. 2023

Congres

Congres	2023 IEEE International Conference on Soft Robotics, RoboSoft 2023
Land/Regio	Singapore
Stad	Singapore
Periode	3/04/23 → 7/04/23

Financiering

Department of Mechanical Engineering, Dynamics and Control Group, Eindhoven University of Technology, 5600MB Eindhoven, The Netherlands. 2This work is partly supported by NWO, Netherlands Organization for Scientific Research; and is part of the Wearable Robotics perspective program (P15-06-P2). Website: www.wearablerobotics.nl 3 4TU Consortium Dutch Soft Robotics, University of Twente, Enschede, Netherlands Corresponding author: Hoang Chu (email: [email protected])

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10.1109/RoboSoft55895.2023.10122015

pdfDefinitieve gepubliceerde versie, 2,05 MBLicentie: TAVERNE

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Haptics and Soft Robotics
Kuling, I. (Onderzoeker), Mulders, P. (Administratieve ondersteuning), van Beek, F. (Onderzoeker), Kommuri, K. D. (Onderzoeker), van Laake, L. (Onderzoeker), Proper, B. (Onderzoeker) & Mitterbach, P. (Onderzoeker)
Impact: Research Topic/Theme (at group level)

Citeer dit

Chu, H., Caasenbrood, B. J., Keyvanara, M., Kuling, I. A., & Nijmeijer, H. (2023). Full-body Grasping Strategy for Planar Underactuated Soft Manipulators using Passivity-based Control. In 2023 IEEE International Conference on Soft Robotics, RoboSoft 2023 Artikel 10122015 Institute of Electrical and Electronics Engineers. https://doi.org/10.1109/RoboSoft55895.2023.10122015

@inproceedings{9f15b769ce4e4b488a15325eb2d62582,

title = "Full-body Grasping Strategy for Planar Underactuated Soft Manipulators using Passivity-based Control",

abstract = "Soft robotics is a branch of robotics that aims to emulate nature by exploring so-called soft materials. By utilizing the embedded softness, various degrees of dexterity in grasping can be achieved without the need for advanced controllers. However, when compared to nature (and modern rigid robots), comparable levels of dexterity and object manipulation are still lacking. For example, when considering the elephant's trunk, whole-body manipulation and sensory feedback are explored to achieve simultaneous, robust, and adaptive grasping. In this work, we incorporate closed-loop control into soft robotic grasping. Using passivity-based control, we achieve whole-body grasping for planar, slender, soft manipulators with torque actuation. Our approach also accounts for the underactuation present in these systems and adapts the grasping strategy accordingly. Furthermore, we explore damping injection without velocity measurements to enhance the attenuation of undesired oscillatory motion. The performance of the closed-loop system is evaluated through simulation and experiments.",

author = "Hoang Chu and Caasenbrood, \{Brandon J.\} and Mahboubeh Keyvanara and Kuling, \{Irene A.\} and Henk Nijmeijer",

year = "2023",

doi = "10.1109/RoboSoft55895.2023.10122015",

language = "English",

booktitle = "2023 IEEE International Conference on Soft Robotics, RoboSoft 2023",

publisher = "Institute of Electrical and Electronics Engineers",

address = "United States",

note = "2023 IEEE International Conference on Soft Robotics, RoboSoft 2023 ; Conference date: 03-04-2023 Through 07-04-2023",

}

Chu, H , Caasenbrood, BJ, Keyvanara, M, Kuling, IA & Nijmeijer, H 2023, Full-body Grasping Strategy for Planar Underactuated Soft Manipulators using Passivity-based Control. in 2023 IEEE International Conference on Soft Robotics, RoboSoft 2023., 10122015, Institute of Electrical and Electronics Engineers, 2023 IEEE International Conference on Soft Robotics, RoboSoft 2023, Singapore, Singapore, 3/04/23. https://doi.org/10.1109/RoboSoft55895.2023.10122015

Full-body Grasping Strategy for Planar Underactuated Soft Manipulators using Passivity-based Control. / Chu, Hoang ; Caasenbrood, Brandon J.; Keyvanara, Mahboubeh et al.
2023 IEEE International Conference on Soft Robotics, RoboSoft 2023. Institute of Electrical and Electronics Engineers, 2023. 10122015.

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/Congresprocedure › Conferentiebijdrage › Academic › peer review

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AU - Chu, Hoang

AU - Caasenbrood, Brandon J.

AU - Keyvanara, Mahboubeh

AU - Kuling, Irene A.

AU - Nijmeijer, Henk

PY - 2023

Y1 - 2023

N2 - Soft robotics is a branch of robotics that aims to emulate nature by exploring so-called soft materials. By utilizing the embedded softness, various degrees of dexterity in grasping can be achieved without the need for advanced controllers. However, when compared to nature (and modern rigid robots), comparable levels of dexterity and object manipulation are still lacking. For example, when considering the elephant's trunk, whole-body manipulation and sensory feedback are explored to achieve simultaneous, robust, and adaptive grasping. In this work, we incorporate closed-loop control into soft robotic grasping. Using passivity-based control, we achieve whole-body grasping for planar, slender, soft manipulators with torque actuation. Our approach also accounts for the underactuation present in these systems and adapts the grasping strategy accordingly. Furthermore, we explore damping injection without velocity measurements to enhance the attenuation of undesired oscillatory motion. The performance of the closed-loop system is evaluated through simulation and experiments.

AB - Soft robotics is a branch of robotics that aims to emulate nature by exploring so-called soft materials. By utilizing the embedded softness, various degrees of dexterity in grasping can be achieved without the need for advanced controllers. However, when compared to nature (and modern rigid robots), comparable levels of dexterity and object manipulation are still lacking. For example, when considering the elephant's trunk, whole-body manipulation and sensory feedback are explored to achieve simultaneous, robust, and adaptive grasping. In this work, we incorporate closed-loop control into soft robotic grasping. Using passivity-based control, we achieve whole-body grasping for planar, slender, soft manipulators with torque actuation. Our approach also accounts for the underactuation present in these systems and adapts the grasping strategy accordingly. Furthermore, we explore damping injection without velocity measurements to enhance the attenuation of undesired oscillatory motion. The performance of the closed-loop system is evaluated through simulation and experiments.

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M3 - Conference contribution

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BT - 2023 IEEE International Conference on Soft Robotics, RoboSoft 2023

PB - Institute of Electrical and Electronics Engineers

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ER -

Full-body Grasping Strategy for Planar Underactuated Soft Manipulators using Passivity-based Control

Samenvatting

Congres

Financiering

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Impact

Haptics and Soft Robotics

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