Smooth transition and Gibbs oscillation minimization in a 7-point subdivision scheme with shape-control parameters for high smoothness

IF 1.4 Q2 MATHEMATICS, APPLIED Results in Applied Mathematics Pub Date : 2024-08-01 DOI:10.1016/j.rinam.2024.100485

Rabia Hameed , Ghulam Mustafa , Tayyabah Latif , Samsul Ariffin Abdul Karim

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Abstract

Computer graphics is a dynamic field that heavily relies on mathematical techniques. For instance, subdivision scheme is used to create smooth and visually appealing curves and surfaces of arbitrary topology. The primary focus of this study is to transform two 5-point binary subdivision schemes into a single 7-point binary subdivision scheme with shape control. We have merged two binary approximating schemes that were constructed using the uniform B-spline basis function and the Lagrange basis function into a new subdivision scheme. It has been demonstrated that, for fixed values of the global shape control parameters, the curves generated by the proposed 7-point binary subdivision scheme maintain $C^{6}$ continuity everywhere. Furthermore, a brief discussion on the analysis of the Gibbs phenomenon in the new subdivision scheme has been presented. This is also a reminder of the challenges and intricacies involved in computer graphics and geometric modeling.

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带形状控制参数的 7 点细分方案中的平滑过渡和吉布斯振荡最小化，实现高平滑度

计算机制图是一个非常依赖数学技术的动态领域。例如，细分方案可用于创建任意拓扑结构的平滑且具有视觉吸引力的曲线和曲面。本研究的主要重点是将两个 5 点二进制细分方案转化为一个具有形状控制功能的 7 点二进制细分方案。我们将使用均匀 B-样条曲线基函数和拉格朗日基函数构建的两个二进制逼近方案合并为一个新的细分方案。结果表明，对于全局形状控制参数的固定值，所提出的 7 点二进制细分方案生成的曲线在任何地方都能保持 C6 连续性。此外，还简要讨论了新细分方案中吉布斯现象的分析。这也提醒我们计算机制图和几何建模所面临的挑战和复杂性。

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