Total least squares fitting of Bézier and B-spline curves to ordered data
Computer Aided Geometric Design
A concept for parametric surface fitting which avoids the parametrization problem
Computer Aided Geometric Design
Adaptive patch-based mesh fitting for reverse engineering
Computer-Aided Design
Interactive 3D garment design with constrained contour curves and style curves
Computer-Aided Design
Feature-based reverse modeling strategies
Computer-Aided Design
Pattern flattening for orthotropic materials
Computer-Aided Design
Design automation for customized apparel products
Computer-Aided Design
Interpolating G1 Bézier surfaces over irregular curve networks for ship hull design
Computer-Aided Design
Constrained fitting for 2D profile-based reverse modeling
Computer-Aided Design
Patch layout from feature graphs
Computer-Aided Design
Bicubic B-spline blending patches with optimized shape
Computer-Aided Design
Smooth Bi-3 spline surfaces with fewest knots
Computer-Aided Design
B-spline surface fitting based on adaptive knot placement using dominant columns
Computer-Aided Design
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Fashion Design is an industry closely connected to our daily life. Computer-aided fashion design can enhance the efficiency of product development, in which a 3D mannequin links the development and application of the entire design system, thus rendering the 3D mannequin data required for fashion design very important. This study proposed a systematic method for surface reconstruction of 3D mannequins based on feature curves. First of all, the study applied reverse engineering methods to scan a mannequin model commonly used in the fashion design profession by extracting grid points that represent the shape features from the scanned data after the segmentation of the mannequin model through feature surfaces. Then, the shape of the entire 3D mannequin is reconstructed using B-spline surfaces. Simultaneously, the continuity among the connected B-spline surfaces is adjusted with tangent vector adjustment methods based on the minimum energy required for improving the quality of the shaped surfaces. Finally, the 3D mannequin is applied to the computer-aided fashion design system being developed to achieve product development using synchronous design methods.