Touch and deformation perception of soft manipulators with capacitive e-skins and deep learning

Tactile sensing in soft robots remains particularly challenging because of the coupling between contact and deformation information which the sensor is subject to during actuation and interaction with the environment. This often results in severe interference and makes disentangling tactile sensing...

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Published inarXiv.org
Main Authors Hu, Delin, Chen, Zhou, Baisamy, Paul, Liu, Zhe, Giorgio-Serchi, Francesco, Yang, Yunjie
Format Paper
LanguageEnglish
Published Ithaca Cornell University Library, arXiv.org 02.05.2023
Subjects
Actuation
Actuators
Decoupling
Deep learning
Deformation effects
Manipulators
Multilayer perceptrons
Multilayers
Recognition
Robot arms
Soft robotics
Tactile sensors (robotics)
Touch
Online AccessGet full text
ISSN2331-8422

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Abstract Tactile sensing in soft robots remains particularly challenging because of the coupling between contact and deformation information which the sensor is subject to during actuation and interaction with the environment. This often results in severe interference and makes disentangling tactile sensing and geometric deformation difficult. To address this problem, this paper proposes a soft capacitive e-skin with a sparse electrode distribution and deep learning for information decoupling. Our approach successfully separates tactile sensing from geometric deformation, enabling touch recognition on a soft pneumatic actuator subject to both internal (actuation) and external (manual handling) forces. Using a multi-layer perceptron, the proposed e-skin achieves 99.88\% accuracy in touch recognition across a range of deformations. When complemented with prior knowledge, a transformer-based architecture effectively tracks the deformation of the soft actuator. The average distance error in positional reconstruction of the manipulator is as low as 2.905\(\pm\)2.207 mm, even under operative conditions with different inflation states and physical contacts which lead to additional signal variations and consequently interfere with deformation tracking. These findings represent a tangible way forward in the development of e-skins that can endow soft robots with proprioception and exteroception.
AbstractList Tactile sensing in soft robots remains particularly challenging because of the coupling between contact and deformation information which the sensor is subject to during actuation and interaction with the environment. This often results in severe interference and makes disentangling tactile sensing and geometric deformation difficult. To address this problem, this paper proposes a soft capacitive e-skin with a sparse electrode distribution and deep learning for information decoupling. Our approach successfully separates tactile sensing from geometric deformation, enabling touch recognition on a soft pneumatic actuator subject to both internal (actuation) and external (manual handling) forces. Using a multi-layer perceptron, the proposed e-skin achieves 99.88\% accuracy in touch recognition across a range of deformations. When complemented with prior knowledge, a transformer-based architecture effectively tracks the deformation of the soft actuator. The average distance error in positional reconstruction of the manipulator is as low as 2.905\(\pm\)2.207 mm, even under operative conditions with different inflation states and physical contacts which lead to additional signal variations and consequently interfere with deformation tracking. These findings represent a tangible way forward in the development of e-skins that can endow soft robots with proprioception and exteroception.
Author Baisamy, Paul
Giorgio-Serchi, Francesco
Liu, Zhe
Yang, Yunjie
Chen, Zhou
Hu, Delin
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SubjectTerms Actuation
Actuators
Decoupling
Deep learning
Deformation effects
Manipulators
Multilayer perceptrons
Multilayers
Recognition
Robot arms
Soft robotics
Tactile sensors (robotics)
Touch
Title Touch and deformation perception of soft manipulators with capacitive e-skins and deep learning
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