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Issue title: Intelligent Systems and Knowledge Management (Part II)
Guest editors: D. Kanellopoulos, S. Kotsiantis and P. Pintelas
Article type: Research Article
Authors: Zebbiche, Toufika; * | Hamdi, Nasreddineb
Affiliations: [a] University SAAD Dahleb of Blida, BP 270, Blida 09000, Algeria | [b] University Amar TELIDJI of Laggouat, BP 37, Lagouat 03000, Algeria
Correspondence: [*] Corresponding author. E-mail: z_toufik270169@yahoo.fr.
Abstract: The present work consists to elaborate a computing program able to generate a Delaunay unstructured triangular meshes around the complex configurations applied in aerodynamics, like airfoil of aircraft, multi-elements airfoils, nacelle, fuselage, etc... While basing on the Delaunay criterion, again called ‘in-circle criterion’ of the hollow circle that means no point is inside a circle circumscribes a triangle of the mesh. The initial mesh can be set up by joining the trailing-edge point of the airfoil to all the outer boundary points, the surface mesh points for the airfoil are then introduced one at a time, and the internal nodes of the O-mesh generated by using a sequence of conformal transformation of Von Karman Trefftz through the whole domain of the out-flow. Each time a new point is introduced, the triangles failing the ‘Delaunay criterion’ are located using the tree-search algorithm, forming a convex cavity named ‘Delaunay cavity’. These triangles will be broken and will be replaced by new triangles while connecting this new point to each of the points at vertices of this cavity. This generated a new triangulation and the algorithm repeats this process with the next new point until succeed to a Delaunay mesh. A Laplacian filter is used to reposition the mesh points in order to have a regular mesh clever to be exploited by the numerical methods: finite volume method or finite element method.
Keywords: Cubic-spline, computational geometry, circumcircle test, Delaunay mesh triangulation, Dirichlet Tessellation, data points, floating-point arithmetic, point insertion, refinement, two-dimensional, Voronoi diagram, Von Karman Trefftz transformation mapping
DOI: 10.3233/JCM-2011-0372
Journal: Journal of Computational Methods in Sciences and Engineering, vol. 11, no. 3, pp. 143-158, 2011
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