• 한국콘텐츠학회논문지
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• 제10권4호
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• pp.106-114
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• 2010

메쉬 파라메터화는 입력으로 들어온 메쉬와 파라메터 영역 사이의 부드러운 일대일 대응함수를 구하는 것으로, 삼차원 스캐너를 통해 획득한 디지털 형상을 여러 가지 응용문제에 활용하기 위해 필요한 디지털 형상 처리의 핵심기반기술이다. 본 논문에서는 구형 위상구조를 가지는 삼차원 물체에 대해, 표면뿐만 아니라 내부를 포함한 물체 전체를 단일 입방정육면체로 하모닉 매핑하는 새로운 삼차원 볼륨파라메터화 방법을 제안한다. 제안하는 방법은 입력으로 들어온 볼륨메쉬의 표면을 정육면체와 동일한 위상구조를 가지는 여섯 개의 영역으로 나누고, 이를 이용하여 볼륨 파라메터화의 경계조건을 계산한다. 이후 경계조건을 만족하며 볼륨 내부의 하모닉 에너지를 최소화하는 하모닉 매핑을 계산하여 물체 내부까지 왜곡이 적은 삼차원 파라메터화 결과를 얻어낸다. 실험결과를 통해, 본 논문에서 제안하는 방법을 통해 다양한 구형 삼차원 모델에 대해 삼차원 볼륨파라메터화 결과를 효과적으로 얻을 수 있음을 확인하였다.

• Journal of Information Processing Systems
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• 제10권1호
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• pp.23-35
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• 2014

Recently, novel application areas in digital geometry processing, such as simulation, dynamics, and medical surgery simulations, have necessitated the representation of not only the surface data but also the interior volume data of a given 3D object. In this paper, we present an efficient framework for the shape approximations of spherical solid objects based on trivariate B-splines. To do this, we first constructed a smooth correspondence between a given object and a unit solid cube by computing their harmonic mapping. We set the unit solid cube as a rectilinear parametric domain for trivariate B-splines and utilized the mapping to approximate the given object with B-splines in a coarse-to-fine manner. Specifically, our framework provides user-controllability of shape approximations, based on the control of the boundary condition of the harmonic parameterization and the level of B-spline fitting. Experimental results showed that our method is efficient enough to compute trivariate B-splines for several models, each of whose topology is identical to a solid sphere.

• International Journal of CAD/CAM
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• 제7권1호
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• pp.71-80
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• 2007

Recently, feature-based solid modeling systems have been widely used in product design. However, for engineering analysis of a product model, an ed CAD model composed of mid-surfaces is desirable for conditions in which the ed model does not affect analysis result seriously. To meet this requirement, a variety of solid ion methods such as MAT (medial axis transformation) have been proposed to provide an ed CAE model from a solid design model. The algorithm of the MAT approach can be applied to any complicated solid model. However, additional work to trim and extend some parts of the result is required to obtain a practically useful CAE model because the inscribed sphere used in the MAT method generates insufficient surfaces with branches. On the other hand, the mid-surface ion approach supports a practical method for generating a two-dimensional ed model, even though it has difficulties in creating a mid-surface from some complicated parts. In this paper, we propose a dimension reduction approach on solid models based on the midsurface abstraction approach. This approach simplifies the solid model by abbreviating or removing trivial features first such as the fillet, mounting, or protrusion. The geometry of each face is replaced with mid-patches from the simplified model, and then unnecessary topological entities are deleted to generate a clean ed model. Also, additional work, such as extending and stitching mid-patches, completes the generation of a mid-surface model from the patches.