Haptic Glove and Platform with Gestural Control For Neuromorphic Tactile Sensory Feedback In Medical Telepresence <sup>†</sup>

Haptic Glove and Platform with Gestural Control For Neuromorphic Tactile Sensory Feedback In Medical Telepresence <sup>†</sup>

Advancements in the study of the human sense of touch are fueling the field of haptics. This is paving the way for augmenting sensory perception during object palpation in tele-surgery and reproducing the sensed information through tactile feedback. Here, we present a novel tele-palpation apparatus...

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Main Authors: Jessica D’Abbraccio, Luca Massari, Sahana Prasanna, Laura Baldini, Francesca Sorgini, Giuseppe Airò Farulla, Andrea Bulletti, Marina Mazzoni, Lorenzo Capineri, Arianna Menciassi, Petar Petrovic, Eduardo Palermo, Calogero Maria Oddo
Format: Article
Language:English
Published: MDPI AG 2019-02-01
Series:Sensors
Subjects:
nodules detection
neuromorphic touch
polymeric phantom
sensory augmentation
tactile telepresence
teleoperation
tele-palpation
vibro-tactile stimulation
Online Access:https://www.mdpi.com/1424-8220/19/3/641
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spelling doaj-ec0409d2d6914d5aa4cb19f1265878ac2020-11-24T23:55:40ZengMDPI AGSensors1424-82202019-02-0119364110.3390/s19030641s19030641Haptic Glove and Platform with Gestural Control For Neuromorphic Tactile Sensory Feedback In Medical Telepresence <sup>†</sup>Jessica D’Abbraccio0Luca Massari1Sahana Prasanna2Laura Baldini3Francesca Sorgini4Giuseppe Airò Farulla5Andrea Bulletti6Marina Mazzoni7Lorenzo Capineri8Arianna Menciassi9Petar Petrovic10Eduardo Palermo11Calogero Maria Oddo12The BioRobotics Institute, Sant’Anna School of Advanced Studies, 56025 Pisa, ItalyThe BioRobotics Institute, Sant’Anna School of Advanced Studies, 56025 Pisa, ItalyThe BioRobotics Institute, Sant’Anna School of Advanced Studies, 56025 Pisa, ItalyDepartment of Mechanical and Aerospace Engineering, “Sapienza” University of Rome, 00185 Rome, ItalyThe BioRobotics Institute, Sant’Anna School of Advanced Studies, 56025 Pisa, ItalyDepartment of Control and Computer Engineering, Politecnico di Torino, 10129 Turin, ItalyDepartment of Information Engineering, Università degli studi di Firenze, 50121 Florence, ItalyDepartment of Information Engineering, Università degli studi di Firenze, 50121 Florence, ItalyDepartment of Information Engineering, Università degli studi di Firenze, 50121 Florence, ItalyThe BioRobotics Institute, Sant’Anna School of Advanced Studies, 56025 Pisa, ItalyProduction Engineering Department, Faculty of Mechanical Engineering, University of Belgrade, 11120 Belgrade, SerbiaDepartment of Mechanical and Aerospace Engineering, “Sapienza” University of Rome, 00185 Rome, ItalyThe BioRobotics Institute, Sant’Anna School of Advanced Studies, 56025 Pisa, ItalyAdvancements in the study of the human sense of touch are fueling the field of haptics. This is paving the way for augmenting sensory perception during object palpation in tele-surgery and reproducing the sensed information through tactile feedback. Here, we present a novel tele-palpation apparatus that enables the user to detect nodules with various distinct stiffness buried in an ad-hoc polymeric phantom. The contact force measured by the platform was encoded using a neuromorphic model and reproduced on the index fingertip of a remote user through a haptic glove embedding a piezoelectric disk. We assessed the effectiveness of this feedback in allowing nodule identification under two experimental conditions of real-time telepresence: In Line of Sight (ILS), where the platform was placed in the visible range of a user; and the more demanding Not In Line of Sight (NILS), with the platform and the user being 50 km apart. We found that the entailed percentage of identification was higher for stiffer inclusions with respect to the softer ones (average of 74% within the duration of the task), in both telepresence conditions evaluated. These promising results call for further exploration of tactile augmentation technology for telepresence in medical interventions.https://www.mdpi.com/1424-8220/19/3/641nodules detectionneuromorphic touchpolymeric phantomsensory augmentationtactile telepresenceteleoperationtele-palpationvibro-tactile stimulation
collection DOAJ
language English
format Article
sources DOAJ
author Jessica D’Abbraccio
Luca Massari
Sahana Prasanna
Laura Baldini
Francesca Sorgini
Giuseppe Airò Farulla
Andrea Bulletti
Marina Mazzoni
Lorenzo Capineri
Arianna Menciassi
Petar Petrovic
Eduardo Palermo
Calogero Maria Oddo
spellingShingle Jessica D’Abbraccio
Luca Massari
Sahana Prasanna
Laura Baldini
Francesca Sorgini
Giuseppe Airò Farulla
Andrea Bulletti
Marina Mazzoni
Lorenzo Capineri
Arianna Menciassi
Petar Petrovic
Eduardo Palermo
Calogero Maria Oddo
Haptic Glove and Platform with Gestural Control For Neuromorphic Tactile Sensory Feedback In Medical Telepresence <sup>†</sup>
Sensors
nodules detection
neuromorphic touch
polymeric phantom
sensory augmentation
tactile telepresence
teleoperation
tele-palpation
vibro-tactile stimulation
author_facet Jessica D’Abbraccio
Luca Massari
Sahana Prasanna
Laura Baldini
Francesca Sorgini
Giuseppe Airò Farulla
Andrea Bulletti
Marina Mazzoni
Lorenzo Capineri
Arianna Menciassi
Petar Petrovic
Eduardo Palermo
Calogero Maria Oddo
author_sort Jessica D’Abbraccio
title Haptic Glove and Platform with Gestural Control For Neuromorphic Tactile Sensory Feedback In Medical Telepresence <sup>†</sup>
title_short Haptic Glove and Platform with Gestural Control For Neuromorphic Tactile Sensory Feedback In Medical Telepresence <sup>†</sup>
title_full Haptic Glove and Platform with Gestural Control For Neuromorphic Tactile Sensory Feedback In Medical Telepresence <sup>†</sup>
title_fullStr Haptic Glove and Platform with Gestural Control For Neuromorphic Tactile Sensory Feedback In Medical Telepresence <sup>†</sup>
title_full_unstemmed Haptic Glove and Platform with Gestural Control For Neuromorphic Tactile Sensory Feedback In Medical Telepresence <sup>†</sup>
title_sort haptic glove and platform with gestural control for neuromorphic tactile sensory feedback in medical telepresence <sup>†</sup>
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2019-02-01
description Advancements in the study of the human sense of touch are fueling the field of haptics. This is paving the way for augmenting sensory perception during object palpation in tele-surgery and reproducing the sensed information through tactile feedback. Here, we present a novel tele-palpation apparatus that enables the user to detect nodules with various distinct stiffness buried in an ad-hoc polymeric phantom. The contact force measured by the platform was encoded using a neuromorphic model and reproduced on the index fingertip of a remote user through a haptic glove embedding a piezoelectric disk. We assessed the effectiveness of this feedback in allowing nodule identification under two experimental conditions of real-time telepresence: In Line of Sight (ILS), where the platform was placed in the visible range of a user; and the more demanding Not In Line of Sight (NILS), with the platform and the user being 50 km apart. We found that the entailed percentage of identification was higher for stiffer inclusions with respect to the softer ones (average of 74% within the duration of the task), in both telepresence conditions evaluated. These promising results call for further exploration of tactile augmentation technology for telepresence in medical interventions.
topic nodules detection
neuromorphic touch
polymeric phantom
sensory augmentation
tactile telepresence
teleoperation
tele-palpation
vibro-tactile stimulation
url https://www.mdpi.com/1424-8220/19/3/641
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