Development of a novel plane piezoelectric ...
Type de document :
Article dans une revue scientifique: Article original
URL permanente :
Titre :
Development of a novel plane piezoelectric actuator using Hamilton's principle based model and Hertz contact theory
Auteur(s) :
M'Boungui, Gaston [Auteur]
Tshwane University of Technology [Pretoria] [TUT]
Semail, Betty [Auteur]
432038|||Méthodes et outils pour l'Interaction à gestes [MINT2]
13338|||Laboratoire d’Électrotechnique et d’Électronique de Puissance - ULR 2697 [L2EP]
Giraud, Frédéric [Auteur]
Méthodes et outils pour l'Interaction à gestes [MINT2]
Laboratoire d’Électrotechnique et d’Électronique de Puissance - ULR 2697 [L2EP]
Institut de Recherche sur les Composants logiciels et matériels pour l'Information et la Communication Avancé [IRCICA]
Jimoh, Adisa [Auteur]
Tshwane University of Technology [Pretoria] [TUT]
Tshwane University of Technology [Pretoria] [TUT]
Semail, Betty [Auteur]
432038|||Méthodes et outils pour l'Interaction à gestes [MINT2]
13338|||Laboratoire d’Électrotechnique et d’Électronique de Puissance - ULR 2697 [L2EP]
Giraud, Frédéric [Auteur]
Méthodes et outils pour l'Interaction à gestes [MINT2]
Laboratoire d’Électrotechnique et d’Électronique de Puissance - ULR 2697 [L2EP]
Institut de Recherche sur les Composants logiciels et matériels pour l'Information et la Communication Avancé [IRCICA]
Jimoh, Adisa [Auteur]
Tshwane University of Technology [Pretoria] [TUT]
Titre de la revue :
Sensors and Actuators A: Physical
Numéro :
217
Pagination :
116-123
Éditeur :
Elsevier
Date de publication :
2014-07-06
ISSN :
0924-4247
Mot(s)-clé(s) en anglais :
Piezoceramic
Electroactive lubrication
Force feedback
Electroactive lubrication
Force feedback
Discipline(s) HAL :
Sciences de l'ingénieur [physics]
Informatique [cs]/Algorithme et structure de données [cs.DS]
Informatique [cs]/Bibliothèque électronique [cs.DL]
Informatique [cs]/Algorithme et structure de données [cs.DS]
Informatique [cs]/Bibliothèque électronique [cs.DL]
Résumé en anglais : [en]
A simple device based on friction coefficient control was designed as a solution to the lack of compactness and simplicity encountered in the number of force feedback interfaces. The structure comprises a 64 × 38 × 3 mm ...
Lire la suite >A simple device based on friction coefficient control was designed as a solution to the lack of compactness and simplicity encountered in the number of force feedback interfaces. The structure comprises a 64 × 38 × 3 mm copper-beryllium plate on which well-adjusted polarized piezoceramics are glued. The plate stands on four legs, each of which has a spherical end. By controlling the drive voltage, friction force may be varied as required by a user who moves the device on a flat surface, as he or she would do with a normal mouse. This adds the possibility of rendering simulated forces from objects manipulated on a PC screen. Friction forces obtained using Hertz contact theory compare well with the ones measured on an experimental setup, which demonstrate the validity of the approach with regard to force feedback application.Lire moins >
Lire la suite >A simple device based on friction coefficient control was designed as a solution to the lack of compactness and simplicity encountered in the number of force feedback interfaces. The structure comprises a 64 × 38 × 3 mm copper-beryllium plate on which well-adjusted polarized piezoceramics are glued. The plate stands on four legs, each of which has a spherical end. By controlling the drive voltage, friction force may be varied as required by a user who moves the device on a flat surface, as he or she would do with a normal mouse. This adds the possibility of rendering simulated forces from objects manipulated on a PC screen. Friction forces obtained using Hertz contact theory compare well with the ones measured on an experimental setup, which demonstrate the validity of the approach with regard to force feedback application.Lire moins >
Langue :
Anglais
Comité de lecture :
Oui
Audience :
Internationale
Vulgarisation :
Non
Équipe(s) de recherche :
Équipe Commande
Date de dépôt :
2020-05-15T14:18:05Z
2022-02-18T10:37:28Z
2022-03-01T11:37:44Z
2022-03-17T12:56:25Z
2022-02-18T10:37:28Z
2022-03-01T11:37:44Z
2022-03-17T12:56:25Z
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