Upgrade StorageLionel Untereiner : Curriculum Vitae
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[1]
R. M. Warkhedkar and A. D. Bhatt, “Material-solid modeling of human body: A heterogeneous B-spline based approach,” Computer-Aided Design, vol. 41, pp. 586–597, Aug. 2009.
[2]
M. S. G. Tsuzuki et al., “Animated solid model of the lung constructed from unsynchronized MR sequential images,” Computer-Aided Design, vol. 41, pp. 573–585, Aug. 2009.
[3]
A. Schonning, B. Oommen, I. Ionescu, and T. Conway, “Hexahedral mesh development of free-formed geometry: The human femur exemplified,” Computer-Aided Design, vol. 41, pp. 566–572, Aug. 2009.
[4]
M. Liu, Y. Liu, and K. Ramani, “Computing global visibility maps for regions on the boundaries of polyhedra using Minkowski sums,” Computer-Aided Design, vol. 41, pp. 668–680, Sep. 2009.
[5]
K. Suthunyatanakit, E. L. J. Bohez, and K. Annanon, “A new global accessibility algorithm for a polyhedral model with convex polygonal facets,” Computer-Aided Design, vol. 41, pp. 1020–1033, Dec. 2009.
[6]
S. Han, J. Xia, and Y. He, “Constructing hexahedral shell meshes via volumetric polycube maps,” Computer-Aided Design, vol. 43, pp. 1222–1233, Oct. 2011.
[7]
A. Gillette and C. Bajaj, “Dual formulations of mixed finite element methods with applications,” Computer-Aided Design, vol. 43, pp. 1213–1221, Oct. 2011.
[8]
K. Biggers and J. Keyser, “Inference-based procedural modeling of solids,” Computer-Aided Design, vol. 43, pp. 1391–1401, Nov. 2011.
[9]
Y. T. Lee and F. Fang, “3D reconstruction of polyhedral objects from single parallel projections using cubic corner,” Computer-Aided Design, vol. 43, pp. 1025–1034, Aug. 2011.
[10]
G. M. Turkiyyah, W. B. Karam, Z. Ajami, and A. Nasri, “Mesh cutting during real-time physical simulation,” Computer-Aided Design, vol. 43, pp. 809–819, Jul. 2011.
[11]
L. H. You, J. Chang, X. S. Yang, and J. J. Zhang, “Solid modelling based on sixth order partial differential equations,” Computer-Aided Design, vol. 43, pp. 720–729, Jun. 2011.
[12]
J.-W. Chang, W. Wang, and M.-S. Kim, “Efficient collision detection using a dual OBB-sphere bounding volume hierarchy,” Computer-Aided Design, vol. 42, pp. 50–57, Jan. 2010.
[13]
Y.-K. Choi, X. Li, F. Rong, W. Wang, and S. Cameron, “Determining the directional contact range of two convex polyhedra,” Computer-Aided Design, vol. 42, pp. 27–35, Jan. 2010.
[14]
Y. Tan, J. Hua, and H. Qin, “Physically based modeling and simulation with dynamic spherical volumetric simplex splines,” Computer-Aided Design, vol. 42, pp. 95–108, Feb. 2010.
[15]
B. Bastl, B. Jüttler, J. Kosinka, and M. Lávička, “Volumes with piecewise quadratic medial surface transforms: Computation of boundaries and trimmed offsets,” Computer-Aided Design, vol. 42, pp. 571–579, Jun. 2010.
[16]
C. C. L. Wang, Y.-S. Leung, and Y. Chen, “Solid modeling of polyhedral objects by Layered Depth-Normal Images on the GPU,” Computer-Aided Design, vol. 42, pp. 535–544, Jun. 2010.
[17]
J.-C. Cuillière, S. Bournival, and V. François, “A mesh-geometry-based solution to mixed-dimensional coupling,” Computer-Aided Design, vol. 42, pp. 509–522, Jun. 2010.
[18]
K. P. Zhu, Y. S. Wong, W. F. Lu, and J. Y. H. Fuh, “A diffusion wavelet approach for 3-D model matching,” Computer-Aided Design, vol. 41, pp. 28–36, Jan. 2009.
[19]
P. Tandon and M. Rajik Khan, “Three dimensional modeling and finite element simulation of a generic end mill,” Computer-Aided Design, vol. 41, pp. 106–114, Feb. 2009.
[20]
G. Foucault, J. Cuilliere, V. Francois, J. Leon, and R. Maranzana, “Adaptation of CAD model topology for finite element analysis,” Computer-Aided Design, vol. 40, pp. 176–196, Feb. 2008.
[21]
S. Cai and J. Xi, “A control approach for pore size distribution in the bone scaffold based on the hexahedral mesh refinement,” Computer-Aided Design, vol. 40, pp. 1040–1050, Oct. 2008.
[22]
S. Krivograd, M. Trlep, and B. Zalik, “A hexahedral mesh connectivity compression with vertex degrees,” Computer-Aided Design, vol. 40, pp. 1105–1112, Dec. 2008.
[23]
K. Sugihara, “Sliver-free perturbation for the Delaunay tetrahedrization,” Computer-Aided Design, vol. 39, pp. 87–94, Feb. 2007.
[24]
J. Rossignac, J. Kim, S. Song, K. Suh, and C. Joung, “Boundary of the volume swept by a free-form solid in screw motion,” Computer-Aided Design, vol. 39, pp. 745–755, Sep. 2007.
[25]
H. Zhang, G. Zhao, and X. Ma, “Adaptive generation of hexahedral element mesh using an improved grid-based method,” Computer-Aided Design, vol. 39, pp. 914–928, Oct. 2007.
[26]
H. Medellin and J. Corney, “Algorithms for the physical rendering and assembly of octree models,” Computer-Aided Design, vol. 38, pp. 69–85, Jan. 2006.
[27]
“Characterization of polyhedron monotonicity,” Computer-Aided Design, vol. 38, pp. 48–54, Jan. 2006.
[28]
S. Choi and H. Cheung, “A topological hierarchy-based approach to toolpath planning for multi-material layered manufacturing,” Computer-Aided Design, vol. 38, pp. 143–156, Feb. 2006.
[29]
J. Yin, G. Chen, and Z. Lin, “New multiresolution modeling techniques in CAD,” Computer-Aided Design, vol. 38, pp. 134–142, Feb. 2006.
[30]
S. Yamakawa, C. Shaw, and K. Shimada, “Layered tetrahedral meshing of thin-walled solids for plastic injection molding FEM,” Computer-Aided Design, vol. 38, pp. 315–326, Apr. 2006.
[31]
D. Kim, D. Kim, Y. Cho, and K. Sugihara, “Quasi-triangulation and interworld data structure in three dimensions,” Computer-Aided Design, vol. 38, pp. 808–819, Jul. 2006.
[32]
Y. Chang and H. Qin, “A unified subdivision approach for multi-dimensional non-manifold modeling,” Computer-Aided Design, vol. 38, pp. 770–785, Jul. 2006.