Open Access
Issue
Mécanique & Industries
Volume 10, Number 3-4, Mai-Août 2009
19e Congrès français de mécanique (CFM 2009)
Page(s) 317 - 322
DOI https://doi.org/10.1051/meca/2009056
Published online 05 August 2009
  1. J. Agnus, P. Nectoux, N. Chaillet, Overview of microgrippers and design of a micromanipulation station based on a MMOC microgripper, Proceedings of the IEEE International Symposium on Computational Intelligence in Robotics and Automation (CIRA), Espoo, Finlande, June 2005, pp. 117–123 [Google Scholar]
  2. X. Lin, F.G. Yuan, Diagnostic lamb waves in an integrated piezoelectric sensor/actuator plate: analytical and experimental studies, Smart Materials and Structures 10 (2001) 907–913 [CrossRef] [Google Scholar]
  3. D. Campolo, R. Sahai, R.S. Fearing, Development of piezoelectric bending actuators with embedded piezoelectric sensors for micromechanical flapping mechanisms, IEEE Int. Conf. on Robotics and Automation, September 2003, pp. 3339–3346 [Google Scholar]
  4. P.J. Costa Branco, J.A. Dente, On the electromechanics of a piezoelectric transducer using a bimorph cantilever undergoing asymmetric sensing and actuation, Smart Materials and Structures 13 (2004) 631–642 [CrossRef] [Google Scholar]
  5. M. Grossard, C. Rotinat-Libersa, N. Chaillet, M. Boukallel, Mechanical and Control-Oriented Design of a Monolithic Piezoelectric Microgripper using a New Topological Optimisation Method, IEEE Transactions on Mechatronics, In press [Google Scholar]
  6. P. Bernardoni, Outils et méthodes de conception de structures mécaniques à déformations réparties et actionnement discret – applications en microrobotique, Thèse de Doctorat réalisée au CEA, Université Paris 6, France, 2004 [Google Scholar]
  7. M. Grossard, Contribution à la conception optimale et la commande de systèmes mécatroniques flexibles à actionnement piézoélectrique intégré – Application en microrobotique, Thèse de Doctorat réalisée au CEA, Université Franche Comté Besançon, France, 2008 [Google Scholar]
  8. K. Deb, S. Agrawal, A. Pratab, T. Meyarivan, A fast elitist nondominated sorting genetic algorithm for multi-objective optimization, Nsga-II, Proc. of the 6th Int. Conf. on Parallel Problem Solving from Nature, Paris, France, 2000 [Google Scholar]
  9. ANSI/IEEE Std. 176-1987 IEEE Standard on piezoelectricity, 1987 [Google Scholar]
  10. M. Grossard, C. Rotinat-Libersa, N. Chaillet, Y. Perrot, Flexible building blocks method for the optimal design of compliant mechanisms using piezoelectric material, 12th IFTOMM World Congress, Besançon France, 2007 [Google Scholar]
  11. H.F. Tiersten, Hamilton's principle for linear piezoelectric media, Proceedings Letters of the IEEE Journal (1967) 1523–1524 [Google Scholar]
  12. P.I. Piezo, Ceramic Technology, Available at http://www.piceramic.com/, 2005 [Google Scholar]

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