J. I. López scite author profile

We present a new strategy, based on the idea of the meccano method and a novel T-mesh optimization procedure, to construct a T-spline parameterization of 2D geometries for the application of isogeometric analysis. The proposed method only demands a boundary representation of the geometry as input data. The algorithm obtains, as a result, high quality parametric transformation between 2D objects and the parametric domain, the unit square. First, we define a parametric mapping between the input boundary of the object and the boundary of the parametric domain. Then, we build a T-mesh adapted to the geometric singularities of the domain in order to preserve the features of the object boundary with a desired tolerance. The key of the method lies in defining an isomorphic transformation between the parametric and physical T-mesh finding the optimal position of the interior nodes by applying a new T-mesh untangling and smoothing procedure. Bivariate T-spline representation is calculated by imposing the interpolation conditions on points sited both on the interior and on the boundary of the geometry. The efficiency of the proposed technique is shown in several examples. Also we present some results of the application of isogeometric analysis in a geometry parameterized with this technique.

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A simple strategy for defining polynomial spline spaces over hierarchical T-meshes

Brovka

López

Escobar

et al. 2016

Computer-Aided Design

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h i g h l i g h t s• A strategy for defining cubic tensor product spline functions is proposed. • Simple rules for inferring local knot vectors to define blending functions for a given T-mesh.• Examples of application of the strategy for adaptive refinement in isogeometric analysis and CAD. a b s t r a c tWe present a new strategy for constructing spline spaces over hierarchical T-meshes with quad-and octree subdivision schemes. The proposed technique includes some simple rules for inferring local knot vectors to define C 2 -continuous cubic tensor product spline blending functions. Our conjecture is that these rules allow to obtain, for a given T-mesh, a set of linearly independent spline functions with the property that spaces spanned by nested T-meshes are also nested, and therefore, the functions can reproduce cubic polynomials. In order to span spaces with these properties applying the proposed rules, the T-mesh should fulfill the only requirement of being a 0-balanced mesh. The straightforward implementation of the proposed strategy can make it an attractive tool for its use in geometric design and isogeometric analysis. In this paper we give a detailed description of our technique and illustrate some examples of its application in isogeometric analysis performing adaptive refinement for 2D and 3D problems.

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Spline parameterization method for 2D and 3D geometries based on T-mesh optimization

López

Brovka

Escobar

et al. 2017

Computer Methods in Applied Mechanics and Engineering

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We present a method to obtain high quality spline parameterization of 2D and 3D geometries for their use in isogeometeric analysis. As input data, the proposed method demands a boundary representation of the domain, and it constructs automatically a spline transformation between the physical and the parametric domains. Parameterization of the interior of the object is obtained by deforming isomorphically an adapted parametric T-mesh onto the physical domain by applying a T-mesh untangling and smoothing procedure, which is the key of the method.The T-mesh optimization is based on the mean ratio shape quality measure. The spline representation of the geometry is calculated by imposing interpolation conditions using the data provided by one-to-one correspondence between the meshes of the parametric and physical domains. We give a detailed description of the proposed technique and show some examples. Also, we present some examples of the application of isogeometric analysis in geometries parameterized with our method.

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Construction of Polynomial Spline Spaces Over Quadtree and Octree T-meshes

Brovka

López

Escobar

et al. 2014

Procedia Engineering

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We present a new strategy for constructing tensor product spline spaces over quadtree and octree T-meshes. The proposed technique includes some simple rules for inferring local knot vectors to define spline blending functions. These rules allow to obtain for a given T-mesh a set of cubic spline functions that span a space with nice properties: it can reproduce cubic polynomials, the functions are C 2 -continuous, linearly independent, and spaces spanned by nested T-meshes are also nested. In order to span spaces with these properties applying the proposed rules, the T-mesh should fulfill the only requirement of being a 0-balanced quadtree or octree. The straightforward implementation of the proposed strategy and the simplicity of tree structures can make it attractive for its use in geometric design and isogeometric analysis. In this paper we give a detailed description of our technique and illustrate some examples of its application in isogeometric analysis performing adaptive refinement for 2D and 3D problems.

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An Optimization Based Method for the Construction of 2D Parameterizations for Isogeometric Analysis with T-Splines

López

Brovka

Escobar

et al. 2015

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J. I. López

A new method for T-spline parameterization of complex 2D geometries

A simple strategy for defining polynomial spline spaces over hierarchical T-meshes

Spline parameterization method for 2D and 3D geometries based on T-mesh optimization

Construction of Polynomial Spline Spaces Over Quadtree and Octree T-meshes

An Optimization Based Method for the Construction of 2D Parameterizations for Isogeometric Analysis with T-Splines

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