Geometric Modeling of Novel Generalized Hybrid Trigonometric Bézier-Like Curve with Shape Parameters and Its Applications

BiBi, Samia; Abbas, Muhammad; Miura, Kenjiro T.; Misro, Yushalify

doi:10.3390/math8060967

Cited by 30 publications

(24 citation statements)

References 39 publications

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“…Hu et al [36,37] proposed a method for constructing generalized developable Bézier and H-Bézier surfaces. Recently, Bibi et al [38] modeled symmetric revolutionary and rotational surfaces using a hybrid trigonometric Bézier surface that was later applied in engineering applications [39].…”

Section: Introductionmentioning

confidence: 99%

Generalized Developable Cubic Trigonometric Bézier Surfaces

et al. 2021

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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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Section: Introductionmentioning

confidence: 99%

Generalized Developable Cubic Trigonometric Bézier Surfaces

et al. 2021

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“…BiBi et al [17,18] suggested a new method for solving the problem of constructing symmetric curves and surfaces by using GHT-Bézier curves with four different shape parameters. e shape of curves can easily be modified by using different values of shape parameters.…”

Section: Introductionmentioning

confidence: 99%

A Class of Sextic Trigonometric Bézier Curve with Two Shape Parameters

Naseer

Abbas

Emadifar

et al. 2021

Journal of Mathematics

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In this paper, we present a new class of sextic trigonometric Bernstein (ST-Bernstein, for short) basis functions with two shape parameters along with their geometric properties which are similar to the classical Bernstein basis functions. A sextic trigonometric Bézier (ST-Bézier, for short) curve with two shape parameters and their geometric characteristics is also constructed. The continuity constraints for the connection of two adjacent ST-Bézier curves segments are discussed. Shape control parameters can provide an opportunity to modify the shape of curve as designer desired. Some open and closed curves are also part of this study.

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“…They are also C 2 and they have two degrees of freedom in the interpolation curves and, thus, can adjust their shape by altering the values of the two parameters. More recently, BiBi et al constructed various shapes and font designing of curves and described the curvature by using parametric and geometric continuity constraints of generalized hybrid trigonometric Bézier (GHT-Bézier) curves [15]. In another very recent work, Usman et al [16] presented a new TC Bernstein-like basis functions analogous to standard Bernstein basis functions with single shape parameter to overcome the drawing of complex curves.…”

Section: Introductionmentioning

confidence: 99%

Curve and Surface Construction Using Hermite Trigonometric Interpolant

Oumellal

Lamnii

2021

MCA

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In this paper, the constructions of both open and closed trigonometric Hermite interpolation curves while using the derivatives are presented. The combination of tension, continuity, and bias control is used as a very powerful type of interpolation; they are applied to open and closed Hermite interpolation curves. Surface construction utilizing the studied trigonometric Hermite interpolation is explored and several examples obtained by the C1 trigonometric Hermite interpolation surface are given to show the usefulness of this method.

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Geometric Modeling of Novel Generalized Hybrid Trigonometric Bézier-Like Curve with Shape Parameters and Its Applications

Cited by 30 publications

References 39 publications

Generalized Developable Cubic Trigonometric Bézier Surfaces

Generalized Developable Cubic Trigonometric Bézier Surfaces

A Class of Sextic Trigonometric Bézier Curve with Two Shape Parameters

Curve and Surface Construction Using Hermite Trigonometric Interpolant

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