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grids [2014/03/05 05:32] Alexander Danilov [Publications] added 2 works |
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- | ===== Meshing techniques ===== | ||
- | ===== Unstructured triangular and tetrahedral meshes ===== | ||
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- | Several examples of grid generation are presented. All examples are created with [[http://sourceforge.net/projects/ani3d|Ani3D]] (3D Generator of Anisotropic Meshes) package. | ||
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- | ==== Mechanics ==== | ||
- | Large deformations. Geometry model is designed in CAD system. Strength analysis and large deformations are computed with Fidesys package. Ani3D package is used for mesh generation.\\ | ||
- | {{:grids:27_leverarm_cad.png?200|}} | ||
- | {{:grids:27_leverarm.png?200|}} | ||
- | {{:grids:27_leverarm_cut.png?200|}} | ||
- | {{:grids:27_leverarm_sol1.png?200|}} | ||
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- | Strength analysis is computed with Ani3D package.\\ | ||
- | {{:grids:gear-cad.png?200|}} | ||
- | {{:grids:gear-surf.png?200|}} | ||
- | {{:grids:gear-cut.png?200|}} | ||
- | {{:grids:gear_mesh0.png?200|}} | ||
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- | ==== Biomathematics ==== | ||
- | === Immunology === | ||
- | Geometry model of a lymph node.\\ | ||
- | {{:grids:lymph-img1.jpeg?100|}} | ||
- | {{:grids:lymph-plan-rus.png?200|}} | ||
- | {{:grids:ll6.png?200|}} | ||
- | {{:grids:ll1.png?200|}} | ||
- | {{:grids:ll3.png?200|}} | ||
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- | === Bioimpedance analysis === | ||
- | Simplified geometry model of a human body.\\ | ||
- | {{:grids:bi-mesh.png?100|}} | ||
- | {{:grids:bi-surf.png?100|}} | ||
- | {{:grids:bi-elec.png?100|}} | ||
- | {{:grids:bi-skin.png?100|}} | ||
- | {{:grids:bi-usol.png?200|}} | ||
- | {{:grids:bi-line.png?200|}} | ||
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- | === Realistic human body === | ||
- | Segmented medical image, geometrical model and unstructured mesh.\\ | ||
- | {{:grids:itksnap-segm.png?200|}} | ||
- | {{:grids:vhp3.png?200|}} | ||
- | {{:grids:cgal-body-4.png?200|}} | ||
- | ==== Oceanology ==== | ||
- | Triangular unstructured grids on the surface.\\ | ||
- | {{:grids:oc1.png?200|}} | ||
- | {{:grids:oc2.png?200|}} | ||
- | {{:grids:oc3.png?200|}} | ||
- | {{:grids:oc4.png?200|}} | ||
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- | Automatic bathymetry-based mesh adaptation.\\ | ||
- | {{:grids:mesh1.png?200|}} | ||
- | {{:grids:mesh2.png?200|}} | ||
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- | ==== Geology ==== | ||
- | Automatic tetrahedral mesh generation for layered anisotropic region. First picture is stretched 50 times in Z direction.\\ | ||
- | {{:grids:andra_50x.png?200|}} | ||
- | {{:grids:andra_cut.png?200|}} | ||
- | {{:grids:andra_src.png?200|}} | ||
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- | Triangular grids for complex multi-domain regions, automatic mesh size adaptation.\\ | ||
- | {{:grids:ibrae-a.png?200|}} | ||
- | {{:grids:ibrae-c.png?200|}} | ||
- | {{:grids:ibrae-d.png?200|}} | ||
- | {{:grids:ibrae-d2.png?200|}} | ||
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- | ==== Aerodynamics ==== | ||
- | Mesh around the aircraft. Geometry model is defined by surface triangulation. The surface mesh is improved, and a volume mesh is generated.\\ | ||
- | {{:grids:boeing-geom.png?200|}} | ||
- | {{:grids:boeing-initial.png?200|}} | ||
- | {{:grids:boeing-cut-z.png?200|}} | ||
- | {{:grids:boeing-cut-y.png?200|}} | ||
- | {{:grids:boeing-cut-x.png?200|}} | ||
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- | ===== Octree meshes for flows with free surface ===== | ||
- | [[http://dodo.inm.ras.ru/research/_media/mesh.avi|{{:mesh.jpg?270x180|}}]] | ||
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- | {{:pic5.png?200|}} | ||
- | {{:pic6.png?200|}} | ||
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- | ===== Octree meshes with cut-cells ===== | ||
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- | ==== Sphere ==== | ||
- | {{:grids:sphere.jpg?200|}} | ||
- | {{:grids:sphere_mesh.jpg?200|}} | ||
- | {{:grids:sphere_cut.jpg?200|}} | ||
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- | ==== Stanford Bunny ==== | ||
- | {{:grids:bunny.jpg?200|}} | ||
- | {{:grids:bunny_mesh.jpg?200|}} | ||
- | {{:grids:bunny_cut.jpg?200|}} | ||
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- | ==== Cow ==== | ||
- | {{:grids:cow.jpg?200|}} | ||
- | {{:grids:cow_mesh.jpg?200|}} | ||
- | {{:grids:cow_cut.jpg?200|}} | ||
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- | ==== Armadillo ==== | ||
- | {{:grids:armad.jpg?200|}} | ||
- | {{:grids:armad_mesh.jpg?200|}} | ||
- | {{:grids:armad_cut.jpg?200|}} | ||
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- | ===== Publications ===== | ||
- | - Danilov A. // {{:grids:cmmp139.pdf|Unstructured tetrahedral mesh generation technology}} // %%//%% Comp. Math. and Math. Phys. 2010. V.50, N.1. P.139-156. | ||
- | - Данилов А.А. //{{:danilov-thesis.pdf|Технология построения неструктурированных сеток и монотонная дискретизация уравнения диффузии}} // / Диссертация на соискание ученой степени кандидата физико-математический наук по специальности 05.13.18 – математическое моделирование, численные методы и комплексы программ. – М.: ИВМ РАН, 2010. | ||
- | - Чернышенко А.Ю. //{{:chernyshenko-thesis.pdf|Технология построения адаптируемых многогранных сеток и численное решение эллиптических уравнений 2-го порядка в трехмерных областях и на поверхностях}} // / Диссертация на соискание ученой степени кандидата физико-математический наук по специальности 05.13.18 – математическое моделирование, численные методы и комплексы программ. – М.: ИВМ РАН, 2013. |