Point-by-point comparing interpolation is one of the contour interpolation algorithms.
逐点比较插补算法是轮廓插补的算法之一。
Some experiments on a series of data show that this method is feasible to intermediate contour interpolation, and important in three dimension reconstruction and display of medical image data.
对一系列数据的实验结果表明,它是一种可行的层间轮廓线插值方法,对医学影像数据的三维重建和显示具有重要意义。
Point-by-point Comparison interpolation is one method of the contour interpolation algorithms, ever used widely in CNC machine tools, but its being not to realize two-axis limits its application.
逐点比较法是轮廓插补算法之一,曾在数控机床中被广泛采用,但由于它存在不能实现两轴联动的缺点,限制了其应用。
With the complete contour information, we present a convolution approach, which utilizes an appropriate linear interpolation to resample the contour to calculate pointwise curvature.
在获得轮廓的完整信息后,文中提出采用卷积积分的方法,通过线性插值对轮廓进行重采样来计算各离散点曲率。
The paper develops general interpolation principals for parametric curves with constant feedrate, and contour error's approximate evaluations are discussed also.
阐述了参数曲线恒速插补的通用原理,同时讨论了轮廓误差近似计算方法。
Automatic interpolation of charted depth annotated point, automatic selection of Marine topography feature point and automatic build of bathymetric contour come true by using history data.
利用历史资料实现了海域水深注记点的自动内插、海底地形特征点的自动选取和等深线的自动生成。
A new adaptive method about curve interpolation is proposed, which can automatically adjust step-length of motion and confine the contour error within a given tolerance.
本文给出了一种新型自适应曲线插补方法。即根据弓高误差自动调整进给步长,同时将轮廓误差限定在允许范围之内的参数曲线实时插补方法。
Local interpolation model is used to replace Zernick polynomials for surface contour error fitting at the grinding stage.
提出了线性插值法代替惯用的泽尼克多项式拟合用于表面的精磨。
On the basis of detailed description of the design and implementation of interpolation module, the paper has applied the contour-shape interpolation algorithm and other algorithms to the system.
在详细叙述插值模块的设计与实现的基础上,将基于轮廓形状的插值算法和其它一些插值算法应用于系统中进行比较。
The intuitive contour lines of the concentrations were acquired through the data processing by cubic interpolation.
对实验数据进行二维三次插值处理,获得直观的粉尘浓度分布等值线图;
We present an algorithm to compute the contour after cutting and interpolation of cut plane. Result shows that it can get ideal final image.
立体图象切割作为三维图象显示的一种有用的方式,可以提供剖面信息,便于诊断。
We present an algorithm to compute the contour after cutting and interpolation of cut plane. Result shows that it can get ideal final image.
立体图象切割作为三维图象显示的一种有用的方式,可以提供剖面信息,便于诊断。
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