A research project called FACE (Facial Automaton for Conveying Emotions) in course at the Research Centre "E. Piaggio" of the University of Pisa is aimed at developing an android face endowed with dynamic expressiveness and artificial vision. The bioinspired approach behind the development of this system foresees the adoption of electroactive polymers as pseudo-muscular actuators to provide motion to the silicone skin of FACE, as well as to its eyeballs. The eyes of such a human-like automaton, and in particular the achievable movements of them, play a relevant role for the 'believability' of the overall system, and thus of its effectiveness, as well as for the performance of the embedded artificial vision. This work presents preliminary results related the actuation of the FACE eyeballs by means of a new type (buckling) of dielectric elastomer actuator. This kind of actuator operates with out-of-plane unidirectional displacements. It is similar to the diaphragm-type one, with the difference that the necessary pre-deformation is enabled by an underlying hemispheric support, instead of pressurised air. One silicone-based buckling actuator was connected to a plastic eyeball of FACE via a tendon-like wire, in order to enable unidirectional rotations. Relative out-of-plane displacements of the actuator larger than 50% were achieved and used to provide rotations up to 13 degrees.

Buckling dielectric elastomer actuators and their use as motors for the eyeballs of an android face / Carpi, F; Fantoni, G.; Guerrini, P.; De Rossi, D.. - ELETTRONICO. - 6168:(2006), pp. 0-0. (Intervento presentato al convegno Smart Structures and Materials 2006: Electroactive Polymer Actuators and Devices (EAPAD) tenutosi a San Diego, CA, usa nel 2006) [10.1117/12.655254].

Buckling dielectric elastomer actuators and their use as motors for the eyeballs of an android face

CARPI, FEDERICO;
2006

Abstract

A research project called FACE (Facial Automaton for Conveying Emotions) in course at the Research Centre "E. Piaggio" of the University of Pisa is aimed at developing an android face endowed with dynamic expressiveness and artificial vision. The bioinspired approach behind the development of this system foresees the adoption of electroactive polymers as pseudo-muscular actuators to provide motion to the silicone skin of FACE, as well as to its eyeballs. The eyes of such a human-like automaton, and in particular the achievable movements of them, play a relevant role for the 'believability' of the overall system, and thus of its effectiveness, as well as for the performance of the embedded artificial vision. This work presents preliminary results related the actuation of the FACE eyeballs by means of a new type (buckling) of dielectric elastomer actuator. This kind of actuator operates with out-of-plane unidirectional displacements. It is similar to the diaphragm-type one, with the difference that the necessary pre-deformation is enabled by an underlying hemispheric support, instead of pressurised air. One silicone-based buckling actuator was connected to a plastic eyeball of FACE via a tendon-like wire, in order to enable unidirectional rotations. Relative out-of-plane displacements of the actuator larger than 50% were achieved and used to provide rotations up to 13 degrees.
2006
Proceedings of SPIE - The International Society for Optical Engineering
Smart Structures and Materials 2006: Electroactive Polymer Actuators and Devices (EAPAD)
San Diego, CA, usa
2006
Carpi, F; Fantoni, G.; Guerrini, P.; De Rossi, D.
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1089297
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