Search results for "Bézier surface"

showing 10 items of 13 documents

A COMPARATIVE STUDY BETWEEN ´ BIHARMONIC BEZIER SURFACES AND BIHARMONIC EXTREMAL SURFACES

2009

AbstractGiven a prescribed boundary of a Bezier surface, we compare the Bezier surfaces generated by two different methods, i.e., the Bezier surface minimising the biharmonic functional and the unique Bezier surface solution of the biharmonic equation with prescribed boundary. Although often the two types of surfaces look visually the same, we show that they are indeed different. In this paper, we provide a theoretical argument showing why the two types of surfaces are not always the same.

Bézier surfaceComputer scienceHardware and ArchitectureMathematical analysisBiharmonic equationBoundary (topology)Bézier curveBiharmonic Bézier surfaceComputer Graphics and Computer-Aided DesignSoftwareComputer Science ApplicationsInternational Journal of Computers and Applications
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Two -methods to generate Bézier surfaces from the boundary

2009

Two methods to generate tensor-product Bezier surface patches from their boundary curves and with tangent conditions along them are presented. The first one is based on the tetraharmonic equation: we show the existence and uniqueness of the solution of @D^4x->=0 with prescribed boundary and adjacent to the boundary control points of a nxn Bezier surface. The second one is based on the nonhomogeneous biharmonic equation @D^2x->=p, where p could be understood as a vectorial load adapted to the C^1-boundary conditions.

Bézier surfaceMathematical analysisAerospace EngineeringBoundary (topology)TangentGeometryMixed boundary conditionBiharmonic Bézier surfaceComputer Graphics and Computer-Aided DesignComputer Science::GraphicsModeling and SimulationAutomotive EngineeringBiharmonic equationUniquenessBoundary value problemMathematicsComputer Aided Geometric Design
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Conversion d'un carreau de Bézier rationnel biquadratique en un carreau de cyclide de Dupin quartique

2006

Dupin cyclides were introduced in 1822 by the French mathematician C-P. Dupin. They are algebraic surfaces of degree 3 or 4. The set of geometric properties of these surfaces has encouraged an increasing interest in using them for geometric modeling. A couple of algorithmes is already developed to convert a Dupin cyclide patch into a rational biquadratic Bezier patch. In this paper, we consider the inverse problem: we investigate the conditions of convertibility of a Bezier patch into a Dupin cyclide one, and we present a conversion algorithm to compute the parameters of a Dupin cyclide with the boundary of the patch that corresponds to the given Bezier patch.

Bézier surfacePure mathematicsDupin cyclideAlgebraic surfaceBoundary (topology)Bézier curveAlgebraic geometryGeometric modelingPolynomial interpolationMathematicsTechniques et sciences informatiques
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Bézier surfaces of minimal area: The Dirichlet approach

2004

The Plateau-Bezier problem consists in finding the Bezier surface with minimal area from among all Bezier surfaces with prescribed border. An approximation to the solution of the Plateau-Bezier problem is obtained by replacing the area functional with the Dirichlet functional. Some comparisons between Dirichlet extremals and Bezier surfaces obtained by the use of masks related with minimal surfaces are studied.

Bézier surfacePure mathematicsMinimal surfaceAerospace EngineeringBézier curveComputer Science::Computational GeometryTopologyComputer Graphics and Computer-Aided DesignDirichlet distributionsymbols.namesakeComputer Science::GraphicsModeling and SimulationComputer Science::MultimediaAutomotive EngineeringsymbolsMathematicsComputer Aided Geometric Design
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A Geometric Algorithm for Ray/Bézier Surfaces Intersection Using Quasi-Interpolating Control Net

2008

In this paper, we present a new geometric algorithm to compute the intersection between a ray and a rectangular Bezier patch. The novelty of our approach resides in the use of bounds of the difference between a Bezier patch and its quasi-interpolating control net. The quasi-interpolating polygon of a Bezier surface of arbitrary degree approximates the limit surface within a precision that is function of the second order difference of the control points, which allows for very simple projections and 2D intersection tests to determine sub-patches containing a potential intersection. Our algorithm is simple, because it only determines a 2D parametric interval containing the solution, and effici…

Bézier surfaceStatistical classificationSpline (mathematics)Computer Science::GraphicsComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONBasis functionAlgorithm designBézier curveAlgorithmComputingMethodologies_COMPUTERGRAPHICSInterpolationMathematicsParametric statistics2008 IEEE International Conference on Signal Image Technology and Internet Based Systems
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PDE triangular Bézier surfaces: Harmonic, biharmonic and isotropic surfaces

2011

We approach surface design by solving second-order and fourth-order Partial Differential Equations (PDEs). We present many methods for designing triangular Bézier PDE surfaces given different sets of prescribed control points and including the special cases of harmonic and biharmonic surfaces. Moreover, we introduce and study a second-order and a fourth-order symmetric operator to overcome the anisotropy drawback of the harmonic and biharmonic operators over triangular Bézier surfaces. © 2010 Elsevier B.V. All rights reserved.

Bézier surfaceSurface (mathematics)Bézier surfacePartial differential equationLaplacian operatorPDE surfaceApplied MathematicsMathematical analysisHarmonic (mathematics)Bi-Laplacian operatorBiharmonic Bézier surfaceIsotropyComputational MathematicsPDE surfaceBiharmonic equationLaplace operatorMathematics
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A third order partial differential equation for isotropic boundary based triangular Bézier surface generation

2011

Abstract We approach surface design by solving a linear third order Partial Differential Equation (PDE). We present an explicit polynomial solution method for triangular Bezier PDE surface generation characterized by a boundary configuration. The third order PDE comes from a symmetric operator defined here to overcome the anisotropy drawback of any operator over triangular Bezier surfaces.

Bézier surfaceSurface (mathematics)PolynomialPartial differential equationPDE surfaceOperator (physics)Applied MathematicsMathematical analysisFirst-order partial differential equationBoundary (topology)Partial differential equationIsotropyPDE surfaceComputational MathematicsComputer Science::GraphicsBézier triangleExplicit solutionMathematicsJournal of Computational and Applied Mathematics
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Surface Reconstruction Based on a Descriptive Approach

2000

The design of complex surfaces is generally hard to achieve. A natural method consists in the subdivision of the global surface into basic surface elements. The different elements are independently designed and then assembled together to represent the final surface. This method requires a classification and a formal description of the basic elements. This chapter presents a general framework for surface description, based on a constructive tree approach. In this tree the leaves are surface primitives and the nodes are constructive operators.

Bézier surfaceSurface (mathematics)Tree (data structure)Theoretical computer sciencebusiness.industryComputer scienceDescriptive researchbusinessConstructiveSurface reconstructionFormal descriptionComputingMethodologies_COMPUTERGRAPHICSSubdivision
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Explicit Bézier control net of a PDE surface

2017

The PDE under study here is a general fourth-order linear elliptic Partial Differential Equation. Having prescribed the boundary control points, we provide the explicit expression of the whole control net of the associated PDE Bézier surface. In other words, we obtain the explicit expressions of the interior control points as linear combinations of free boundary control points. The set of scalar coefficients of these combinations works like a mould for PDE surfaces. Thus, once this mould has been computed for a given degree, real-time manipulation of the resulting surfaces becomes possible by modifying the prescribed information. The work was partially supported by Spanish Ministry of Econo…

Bézier surfaceSurface GenerationPartial differential equationPDE surfaceScalar (mathematics)Mathematical analysis020207 software engineeringBézier curve010103 numerical & computational mathematics02 engineering and technologyBiharmonic Bézier surfaceBiharmonic surface01 natural sciencesComputational MathematicsPDE surfacePartial Differential EquationComputational Theory and MathematicsElliptic partial differential equationExplicit solutionModeling and Simulation0202 electrical engineering electronic engineering information engineering0101 mathematicsLinear combinationTensor product Bézier surfaceMathematicsComputers & Mathematics with Applications
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Generating harmonic surfaces for interactive design

2014

Abstract A method is given for generating harmonic tensor product Bezier surfaces and the explicit expression of each point in the control net is provided as a linear combination of prescribed boundary control points. The matrix of scalar coefficients of these combinations works like a mould for harmonic surfaces. Thus, real-time manipulation of the resulting surfaces subject to modification of prescribed information is possible.

Interactive designScalar (mathematics)Mathematical analysisBézier curveComputational MathematicsTensor productComputational Theory and MathematicsExplicit solutionModeling and SimulationLinear combinationTensor product Bézier surfaceHarmonic surfaceGenerating functionMathematicsComputers & Mathematics with Applications
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