This article presents a deformable poroelastic bidimensional elastomeric architecture that responds to deformations along various directions thanks to an integrated sensorized fabric. The sensors exploit the piezoresistivity of the loaded rubbers as a principle of strain transduction. Using this architecture, sensors have been characterized in terms of their quasistatic and dynamic electromechanical transduction properties.
A biomimetic sensing skin: characterization of piezoresistive fabric-based elastomeric sensors / G. Pioggia; M. Ferro; F. Carpi; E. Labbozzetta; F. Di Francesco; F. Lorussi; D. De Rossi. - ELETTRONICO. - (2008), pp. 584-589. (Intervento presentato al convegno 10th Italian Conference on Sensors and Microsystems tenutosi a Firenze nel 15-17 February 2005).
A biomimetic sensing skin: characterization of piezoresistive fabric-based elastomeric sensors
CARPI, FEDERICO;
2008
Abstract
This article presents a deformable poroelastic bidimensional elastomeric architecture that responds to deformations along various directions thanks to an integrated sensorized fabric. The sensors exploit the piezoresistivity of the loaded rubbers as a principle of strain transduction. Using this architecture, sensors have been characterized in terms of their quasistatic and dynamic electromechanical transduction properties.
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