分段参数立方曲线拟合

Proceedings of the 10th annual conference on Computer graphics and interactive techniques Pub Date : 1983-07-01 DOI:10.1145/800059.801153

M. Plass, M. Stone

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引用次数: 193

摘要

参数化分段三次函数在整个计算机图形学行业中用于表示曲线形状。对于许多应用程序，能够可靠地从接近所需曲线的一组紧密间隔的点推导出这种表示将是有用的，例如来自数字化平板电脑或扫描仪的输入。本文提出了一种从采样数据中自动生成有效的形状分段参数三次多项式逼近问题的解决方案。我们开发了一种算法，该算法采用一组样本点，加上可选的端点和切向量规格，并迭代地导出一个单参数三次多项式，该多项式靠近由基于最小二乘的误差度量定义的数据点。将该算法与动态规划技术相结合来确定结的位置，可以在各种形状和应用中获得良好的结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Curve-fitting with piecewise parametric cubics

Parametric piecewise-cubic functions are used throughout the computer graphics industry to represent curved shapes. For many applications, it would be useful to be able to reliably derive this representation from a closely spaced set of points that approximate the desired curve, such as the input from a digitizing tablet or a scanner. This paper presents a solution to the problem of automatically generating efficient piecewise parametric cubic polynomial approximations to shapes from sampled data. We have developed an algorithm that takes a set of sample points, plus optional endpoint and tangent vector specifications, and iteratively derives a single parametric cubic polynomial that lies close to the data points as defined by an error metric based on least-squares. Combining this algorithm with dynamic programming techniques to determine the knot placement gives good results over a range of shapes and applications.

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Proceedings of the 10th annual conference on Computer graphics and interactive techniques

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