Conversion of a Composite Trimmed Bézier Surface Into Composite Bézier Surfaces

By using Bezier surface matrix formula and the algorithms of texture mapping, the texture mapping onto Bezier surface and its control points net were tested. The texture mapping for Bezier surface model that is composed of six Bezier surfaces was tested too. From the testing examples, it is concluded that these texture mapping algorithms are reliable. All algorithms were implemented by Java and Java 3D.

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Generalized Developable Cubic Trigonometric Bézier Surfaces

Mathematics ◽

10.3390/math9030283 ◽

2021 ◽

Vol 9 (3) ◽

pp. 283

Author(s):

Muhammad Ammad ◽

Md Yushalify Misro ◽

Muhammad Abbas ◽

Abdul Majeed

Keyword(s):

Shape Parameter ◽

Surface Characteristics ◽

Surface Shape ◽

Shape Parameters ◽

New Approach ◽

Bézier Surface ◽

Bezier Surface ◽

Bézier Surfaces ◽

Bezier Surfaces ◽

Shape Adjustment

This paper introduces a new approach for the fabrication of generalized developable cubic trigonometric Bézier (GDCT-Bézier) surfaces with shape parameters to address the fundamental issue of local surface shape adjustment. The GDCT-Bézier surfaces are made by means of GDCT-Bézier-basis-function-based control planes and alter their shape by modifying the shape parameter value. The GDCT-Bézier surfaces are designed by maintaining the classic Bézier surface characteristics when the shape parameters take on different values. In addition, the terms are defined for creating a geodesic interpolating surface for the GDCT-Bézier surface. The conditions appropriate and suitable for G1, Farin–Boehm G2, and G2 Beta continuity in two adjacent GDCT-Bézier surfaces are also created. Finally, a few important aspects of the newly formed surfaces and the influence of the shape parameters are discussed. The modeling example shows that the proposed approach succeeds and can also significantly improve the capability of solving problems in design engineering.

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Three Order Bezier Surface and Racing Car Conception Model Design Using Java 3D

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.58-60.1272 ◽

2011 ◽

Vol 58-60 ◽

pp. 1272-1276

Author(s):

Xin Rui Gao ◽

Yong Chuan Zhang

Keyword(s):

Control Points ◽

Model Design ◽

Java 3D ◽

Bézier Surface ◽

Car Model ◽

Bezier Surface ◽

Surface Control ◽

Bézier Surfaces ◽

Matrix Formula ◽

Bezier Surfaces

By using Bezier surface matrix formula and Bezier surface control points and through merging different Bezier surfaces, the car model was produced. By using texture and transparence and other functions of Java 3D, the tyres and the wind screen of the car and the exhibition platform were designed. By defining the moving and rotation actions, the motions of the car model were designed. All functions were implemented by Java and Java 3D.

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Variationally Improved Bézier Surfaces with Shifted Knots

Advances in Mathematical Physics ◽

10.1155/2021/9978633 ◽

2021 ◽

Vol 2021 ◽

pp. 1-14

Author(s):

Daud Ahmad ◽

Kanwal Hassan ◽

M. Khalid Mahmood ◽

Javaid Ali ◽

Ilyas Khan ◽

...

Keyword(s):

Control Point ◽

Linear Constraints ◽

Control Points ◽

Bézier Surface ◽

Bezier Surface ◽

Bézier Surfaces ◽

Variational Minimization ◽

Area Functional ◽

Bezier Surfaces ◽

Minimal Area

The Plateau-Bézier problem with shifted knots is to find the surface of minimal area amongst all the Bézier surfaces with shifted knots spanned by the admitted boundary. Instead of variational minimization of usual area functional, the quasi-minimal Bézier surface with shifted knots is obtained as the solution of variational minimization of Dirichlet functional that turns up as the sum of two integrals and the vanishing condition gives us the system of linear algebraic constraints on the control points. The coefficients of these control points bear symmetry for the pair of summation indices as well as for the pair of free indices. These linear constraints are then solved for unknown interior control points in terms of given boundary control points to get quasi-minimal Bézier surface with shifted knots. The functional gradient of the surface gives possible candidate functions as the minimizers of the aforementioned Dirichlet functional; when solved for unknown interior control points, it results in a surface of minimal area called quasi-minimal Bézier surface. In particular, it is implemented on a biquadratic Bézier surface by expressing the unknown control point P 11 as the linear combination of the known control points in this case. This can be implemented to Bézier surfaces with shifted knots of higher degree, as well if desired.

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Interpolation of data in ℝ3 using quartic triangular Bézier surfaces

10.1063/5.0040457 ◽

2021 ◽

Author(s):

Krassimira Vlachkova ◽

Krum Radev

Keyword(s):

Bézier Surfaces ◽

Bezier Surfaces

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Synthesis of Folds in 3D with Bézier Surface

Developments in Structural Geology and Tectonics - Problems and Solutions in Structural Geology and Tectonics ◽

10.1016/b978-0-12-814048-2.00023-5 ◽

2019 ◽

pp. 279-290

Author(s):

Manash Pratim Gogoi ◽

Soumyajit Mukherjee

Keyword(s):

Bézier Surface ◽

Bezier Surface

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An oblique-angle infrared circular polarization filter using a Bezier surface representation

2015 IEEE International Symposium on Antennas and Propagation & USNC/URSI National Radio Science Meeting ◽

10.1109/aps.2015.7305070 ◽

2015 ◽

Author(s):

Jason Ashbach ◽

Douglas H. Werner

Keyword(s):

Circular Polarization ◽

Oblique Angle ◽

Polarization Filter ◽

Surface Representation ◽

Bézier Surface ◽

Bezier Surface

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Automatic extraction of complex surface models from range images using a trimmed-rational Bezier surface

10.1117/12.150271 ◽

1993 ◽

Cited By ~ 1

Author(s):

Pierre Boulanger ◽

Iwao Sekita

Keyword(s):

Complex Surface ◽

Automatic Extraction ◽

Range Images ◽

Bézier Surface ◽

Bezier Surface ◽

Surface Models ◽

Rational Bézier Surface

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Geometric Design and Fabrication of Developable Bezier Surfaces

18th Design Automation Conference: Volume 2 — Geometric Modeling, Mechanisms, and Mechanical Systems Analysis ◽

10.1115/detc1992-0172 ◽

1992 ◽

Author(s):

R. M. C. Bodduluri ◽

B. Ravani

Keyword(s):

Geometric Design ◽

Developable Surface ◽

Developable Surfaces ◽

Surface Patches ◽

Bézier Surfaces ◽

Point Representation ◽

Cad Cam ◽

C2 Continuity ◽

Type Construction ◽

Bezier Surfaces

Abstract In this paper we study Computer Aided Geometric Design (CAGD) and Manufacturing (CAM) of developable surfaces. We develop direct representations of developable surfaces in terms of point as well as plane geometries. The point representation uses a Bezier curve, the tangents of which span the surface. The plane representation uses control planes instead of control points and determines a surface which is a Bezier interpolation of the control planes. In this case, a de Casteljau type construction method is presented for geometric design of developable Bezier surfaces. In design of piecewise surface patches, a computational geometric algorithm similar to Farin-Boehm construction used in design of piecewise parametric curves is developed for designing developable surfaces with C2 continuity. In the area of manufacturing or fabrication of developable surfaces, we present simple methods for both development of a surface into a plane and bending of a flat plane into a desired developable surface. The approach presented uses plane and line geometries and eliminates the need for solving differential equations of Riccatti type used in previous methods. The results are illustrated using an example generated by a CAD/CAM system implemented based on the theory presented.

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