Nickolas S. Sapidis scite author profile

ABSTRACT3D mesh segmentation is a fundamental process for Digital Shape Reconstruction in a variety of applications including Reverse Engineering, Medical Imaging, etc. It is used to provide a high level representation of the raw 3D data which is required for CAD, CAM and CAE. In this paper, we present an exhaustive overview of 3D mesh segmentation methodologies examining their suitability for CAD models. In particular, a classification of the various methods is given based on their corresponding underlying fundamental methodology concept as well as on the distinct criteria and features used in the segmentation process.

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Fairing cubic B-spline curves

Farin

Rein

Sapidis

et al. 1987

Computer Aided Geometric Design

135

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3D articulated object retrieval using a graph-based representation

et al. 2010

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In this paper, a retrieval methodology for 3D articulated objects is presented that relies upon a graphbased object representation. The methodology is composed of a mesh segmentation stage which creates the Attributed Relation Graph (ARG) of the object along with a graph matching algorithm which matches two ARGs. The graph matching algorithm is based on the Earth Movers Distance (EMD) similarity measure calculated with a new ground distance assignment. The superior performance of the proposed retrieval methodology against state of the art approaches is shown by extensive experimentation that comprise the application of various geometric descriptors representing the components of the 3D objects that become the node attributes of the ARGs as well as alternative mesh segmentation approaches for the extraction of the object parts. The performance evaluation is addressed in both qualitative and quantitative terms.

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A new methodology for the development of sizing systems for the mass customization of garments

Mpampa

Azariadis

Sapidis

2010

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Purpose-The purpose of this paper is to derive a new method for developing sizing systems for the mass customization of garments. Design/methodology/approach-A range of recently published works has been studied. A new method is derived by following a basic statistical analysis on anthropometric data which are supported by an iterative mass customization model and introduced "satisfaction performance" indices. The derived method is applied successfully to an anthropometric data consisting of 12,810 Greek men. Findings-With the proposed method, it is possible to control the degree of mass customization and the corresponding number of garment sizes. Under this way, a balance between the number of sizes (in other words: production cost) and the percentage satisfaction of consumers can be achieved. The proposed method consists of six subsequent tasks which are applied to the target population data for the development of mass customization models for male shirts, coats and trousers. Research limitations/implications-Future work could be focused on the development of methods for the automatic garments grading with respect to the proposed mass customization models and practise. Originality/value-The methodology presented in this paper can be applied to the development of mass customization models for other categories of garments and target population.

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Curvature and the fairness of curves and surfaces

Farin

Sapidis

1989

IEEE Comput. Grap. Appl.

126

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