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| Detailed view | Communications avec actes |
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| NOVEM 2009, Noise and Vibration: Emerging Methods, Oxford : Royaume-Uni (2009) |
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| Identification of the elasticity tensor of an uncertain biomechanical computational model using axial transmission |
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| C. Desceliers1C. Soize1Q. Grimal2M. Talmant2S. Naili3 |
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| The purpose of this paper is the construction of an uncertain probabilistic model for the mechanical properties of the cortical bone. The main objective is firstly to propose a probabilistic simplified model adapted to the ultrasonic axial transmission technique and secondly to present an experimental identification using this technique. The simplified model is constructed as a fluid-solid semi-infinite multilayered system in which the solid layer (the cortical bone) is a nonhomogeneous anisotropic elastic material and the two others semi-infinite layers are fluids. The uncertainties are related to the elasticity tensor and are taken into account with a probabilistic model. In this paper, the parameters of the probabilistic model are the mean elasticity tensor and a dispersion coefficient. A complete application is presented for the human cortical bone for which an experimental database is available. |
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| 1: | MSME - Laboratoire de Modélisation et Simulation Multi Echelle |
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| 2: | LIP - Laboratoire d'Imagerie Paramétrique |
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| 3: | UMR 7052 - Laboratoire de Mécanique Physique |
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| Mechanics |
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| uncertainty quantification – stochastic inverse problem – identification – probabilistic model – cortical bone – ultrasonic range – model uncertainties – random uncertainties – random matrix |
| hal-00691747, version 1 | |
| http://hal-upec-upem.archives-ouvertes.fr/hal-00691747 | |
| oai:hal-upec-upem.archives-ouvertes.fr:hal-00691747 | |
| From: Christian Soize | |
| Submitted on: Thursday, 26 April 2012 23:16:35 | |
| Updated on: Wednesday, 7 November 2012 23:19:33 | |
