Wearable Integrated Soft Haptics in a Prosthetic Socket

Modern active prostheses can be used to recover part of the motor function associated with the loss of a hand. Nevertheless, most sensory abilities are lost, and the person has to manage interaction by relying mostly on visual feedback. Despite intensive research devoted to convey touch related cues...

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Published in	IEEE robotics and automation letters Vol. 6; no. 2; pp. 1785 - 1792
Main Authors	Barontini, Federica, Catalano, Manuel G., Grioli, Giorgio, Bianchi, Matteo, Bicchi, Antonio
Format	Journal Article
Language	English
Published	Piscataway IEEE 01.04.2021 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Actuators Contact pressure Force Grasping Haptic interfaces Haptics and haptic interfaces Prostheses Prosthetics prosthetics and exoskeletons Robot sensing systems Sensory feedback Skin Sockets soft robot applications Soft robotics
Online Access	Get full text
ISSN	2377-3766 2377-3766
DOI	10.1109/LRA.2021.3060432

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Abstract	Modern active prostheses can be used to recover part of the motor function associated with the loss of a hand. Nevertheless, most sensory abilities are lost, and the person has to manage interaction by relying mostly on visual feedback. Despite intensive research devoted to convey touch related cues, very few solutions have been integrated in a real prosthesis worn by a user. This letter describes a soft pneumatic feedback system designed with integrability and wearability among its main concerns. At the system core, two soft pneumatic actuators are placed in contact with the subject's skin and inflated to provide pressure stimuli, which can be used to represent force exerted by the hand grasping. We report on the design and the characterization of the system, including behavioural experiments with able-bodied participants and one prosthesis user. Results from psychophysical, dexterity and usability tests show that the system has the potential to restore sensory feedback in hand amputees, and can be a useful tool for enabling a correct modulation of the force during grasping and manipulation tasks.
AbstractList	Modern active prostheses can be used to recover part of the motor function associated with the loss of a hand. Nevertheless, most sensory abilities are lost, and the person has to manage interaction by relying mostly on visual feedback. Despite intensive research devoted to convey touch related cues, very few solutions have been integrated in a real prosthesis worn by a user. This letter describes a soft pneumatic feedback system designed with integrability and wearability among its main concerns. At the system core, two soft pneumatic actuators are placed in contact with the subject's skin and inflated to provide pressure stimuli, which can be used to represent force exerted by the hand grasping. We report on the design and the characterization of the system, including behavioural experiments with able-bodied participants and one prosthesis user. Results from psychophysical, dexterity and usability tests show that the system has the potential to restore sensory feedback in hand amputees, and can be a useful tool for enabling a correct modulation of the force during grasping and manipulation tasks.
Author	Grioli, Giorgio Bicchi, Antonio Catalano, Manuel G. Bianchi, Matteo Barontini, Federica
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SubjectTerms	Actuators Contact pressure Force Grasping Haptic interfaces Haptics and haptic interfaces Prostheses Prosthetics prosthetics and exoskeletons Robot sensing systems Sensory feedback Skin Sockets soft robot applications Soft robotics
Title	Wearable Integrated Soft Haptics in a Prosthetic Socket
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