Serge Samper scite author profile

The form defects quality needs methods to express allowable deviations. We propose a new language for form defects expression. This one is based on natural mode shapes of a discretized feature. The finite element method is used in order to compute those modes. Then a basis of defects is built with the natural modes. A defect is projected in this basis and thus the coordinates (modal coefficient) represent it. Hence, tolerancing is possible, by limiting those coordinates. The methods proposed in the literature can be applied on elementary geometries or there is a need to express the set of possible features (explicit geometry). Our method is versatile because it is based on the discretization of the feature (implicit geometry). The modal tolerancing method proposes two ways to express specifications of form defects: (1) The spectral tolerancing shows the modal coordinates and their limits in a bar chart graph by drawing the limits. In this method, we can see the decomposition of the measured feature and express tolerancing on each coordinate. (2) When a specification needs to link coordinates, we propose the modal domain method. An inclusion test of the feature coordinates gives the result of the metrology. Those methods are presented in an example.

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Modeling of 2D and 3D Assemblies Taking Into Account Form Errors of Plane Surfaces

Samper

Adragna

Favrelière

et al. 2009

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Tolerance Analysis and Synthesis by Means of Deviation Domains, Axi-Symmetric Cases

Giordano¹,

Samper²,

Petit³

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Multiscale roughness analysis of engineering surfaces: A comparison of methods for the investigation of functional correlations

Goïc

Bigerelle

Samper

et al. 2016

Mechanical Systems and Signal Processing

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Discrete Modal Decomposition: a new approach for the reflectance modeling and rendering of real surfaces

Pitard

Goïc

Mansouri

et al. 2017

Machine Vision and Applications

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International audienceReflectance Transformation Imaging is a recent technique allowing for the measurement and the modeling of one of the most influential parameters on the appearance of a surface, namely the angular reflectance, thanks to the change in the direction of the lighting during acquisition. From these photometric stereo images (discrete data), the angular reflectance is modeled to allow both interactive and continuous relighting of the inspected surface. Two families of functions, based on polynomials and on hemispherical harmonics, are cited and used in the literature at this aim, respectively, associated to the PTM and HSH techniques. In this paper, we propose a novel method called Discrete Modal Decomposition (DMD) based on a particular and appropriate Eigen basis derived from a structural dynamic problem. The performance of the proposed method is compared with the PTM and HSH results on three real surfaces showing different reflection behaviors. Comparisons are made in terms of both visual rendering and of statistical error (local and global). The obtained results show that the DMD is more efficient in that it allows for a more accurate modeling of the angular reflectance when light-matter interaction is complex such as the presence of shadows, specularities and inter-reflections

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Serge Samper

Form Defects Tolerancing by Natural Modes Analysis

Modeling of 2D and 3D Assemblies Taking Into Account Form Errors of Plane Surfaces

Tolerance Analysis and Synthesis by Means of Deviation Domains, Axi-Symmetric Cases

Multiscale roughness analysis of engineering surfaces: A comparison of methods for the investigation of functional correlations

Discrete Modal Decomposition: a new approach for the reflectance modeling and rendering of real surfaces

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