This work proposes a novel artificial skin, developed by using the optoelectronic technology, able to estimate both normal and shear contact force components. Each sensing module is obtained with four taxels, each one constituted by an infrared Light Emitting Diode and a Photo-Detector, covered by a silicone layer that transduces the external force in a mechanical deformation, measured by the four receivers. The applied force is estimated as a suitable combination of the four voltage signals. The distributed sensor is realized by interconnecting several sensing modules with a suitably designed scanning strategy. A complete prototype, with a 6×6 matrix of sensing modules has been realized, calibrated and tested.
An Optoelectronic Artificial Skin for Contact Force Vector Estimation
CAVALLO, Alberto;DE MARIA, Giuseppe;NATALE, Ciro;PIROZZI, Salvatore
2014
Abstract
This work proposes a novel artificial skin, developed by using the optoelectronic technology, able to estimate both normal and shear contact force components. Each sensing module is obtained with four taxels, each one constituted by an infrared Light Emitting Diode and a Photo-Detector, covered by a silicone layer that transduces the external force in a mechanical deformation, measured by the four receivers. The applied force is estimated as a suitable combination of the four voltage signals. The distributed sensor is realized by interconnecting several sensing modules with a suitably designed scanning strategy. A complete prototype, with a 6×6 matrix of sensing modules has been realized, calibrated and tested.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
