A modular and low-cost artificial skin for robotic applications

In this paper a novel modular artificial skin is presented. The skin is organized in a chain of optoelectronic sensor arrays that communicate with serial interconnections. The proposed solution is highly modular and scalable since each module can be removed and/or inserted in the chain without intro...

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Published in:	2012 4th IEEE RAS & EMBS International Conference on Biomedical Robotics and Biomechatronics (BioRob) pp. 961 - 966
Main Authors:	Cirillo, Andrea, Cirillo, Pasquale, Pirozzi, Salvatore
Format:	Conference Proceeding
Language:	English
Published:	IEEE 01-06-2012
Subjects:	Microcontrollers Prototypes Robot sensing systems Skin Voltage measurement
Online Access:	Get full text
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Abstract	In this paper a novel modular artificial skin is presented. The skin is organized in a chain of optoelectronic sensor arrays that communicate with serial interconnections. The proposed solution is highly modular and scalable since each module can be removed and/or inserted in the chain without introducing any changing in the architecture of the skin or in the acquisition system. A sensor element is constituted by an emitter/receiver couple of optoelectronic devices covered by a silicone layer. An external force applied to the deformable layer is transduced into a vertical displacement measured by the optoelectronic couple. A skin module consists of n sensing elements and m modules can be interconnected in order to obtain a complete skin with n×m sensing elements. The use of inexpensive and off-the-shelf components allows to change the density of the sensing elements as needed, maintaining a low cost.
AbstractList	In this paper a novel modular artificial skin is presented. The skin is organized in a chain of optoelectronic sensor arrays that communicate with serial interconnections. The proposed solution is highly modular and scalable since each module can be removed and/or inserted in the chain without introducing any changing in the architecture of the skin or in the acquisition system. A sensor element is constituted by an emitter/receiver couple of optoelectronic devices covered by a silicone layer. An external force applied to the deformable layer is transduced into a vertical displacement measured by the optoelectronic couple. A skin module consists of n sensing elements and m modules can be interconnected in order to obtain a complete skin with n×m sensing elements. The use of inexpensive and off-the-shelf components allows to change the density of the sensing elements as needed, maintaining a low cost.
Author	Cirillo, Andrea Cirillo, Pasquale Pirozzi, Salvatore
Author_xml	– sequence: 1 givenname: Andrea surname: Cirillo fullname: Cirillo, Andrea organization: Dipt. di Ing. dell'Inf., Seconda Univ. degli Studi di Napoli, Aversa, Italy – sequence: 2 givenname: Pasquale surname: Cirillo fullname: Cirillo, Pasquale organization: Dipt. di Ing. dell'Inf., Seconda Univ. degli Studi di Napoli, Aversa, Italy – sequence: 3 givenname: Salvatore surname: Pirozzi fullname: Pirozzi, Salvatore email: salvatore.pirozzi@unina2.it organization: Dipt. di Ing. dell'Inf., Seconda Univ. degli Studi di Napoli, Aversa, Italy
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Snippet	In this paper a novel modular artificial skin is presented. The skin is organized in a chain of optoelectronic sensor arrays that communicate with serial...
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SubjectTerms	Microcontrollers Prototypes Robot sensing systems Skin Voltage measurement
Title	A modular and low-cost artificial skin for robotic applications
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