The interpolation polynomial is applied in curve fitting for easy calculation and analysis and better representation of CT10%error curve.
采用多项式拟合曲线,可以发挥其便于计算和分析的优点,能够更好地反映电流互感器10%误差特性,使用方便。
It USES edge localization and curve fitting to solve one dimension displacement field and calculate the error.
面形检测采用边缘定位的方法,并且结合了曲线拟合的方法求解一维位移场来计算误差。
The optimal fitting model is derived from the measured data, then the error curve is drawn and printed out.
根据测得的数据,求出最优拟合模型,再绘制该特性曲线,并通过微型打印机打印该曲线。
A new curve fitting method using area error feedback based on cubic splines is presented.
本文提出一种新的基于三次样条曲线的面积误差反馈曲线拟合方法。
Curve fitting is a curve approaching process under definite error and the number of control points throughout surface is ascertained after curve fitting completed.
其中曲线拟合是一个在给定误差下进行曲线逼近的过程,当曲线拟合完成之后,整个曲面的控制点的数目也就确定了。
Conparing with the conventional curve fitting, this method is simpler, the matched curve could be obtained by only giving the data points and the acceptable error.
与传统的曲线拟合方法相比,该方法只需给定数据点及允许误差即可得到匹配的曲线方程。
The compensator function depends directly on the quality of the error curve, which is decided by discrete error data through curve fitting.
对离散误差资料进行曲线拟合,误差曲线质量对补偿器性能至关重要。
We could obtain smooth and sole error fitting curve by means of this method.
使用该法能获得具有较好的光顺性和一致性的误差拟合曲线。
Fitting a curve for an experimental energy spectrum of plasma particles with the least square method, a square error sum between the fitted curve and experimental spectrum data is usually minimized.
用最小二乘法拟合等离子体粒子能谱实验数据时,通常使拟合函数与实验能谱数据之间的误差平方和极小化。
We present a method of circular arc fragmented curve-fitting based on least mean-square error rule in this paper.
提出了一种基于最小均方误差准则的圆弧分段曲线拟合方法。
The NURBS curve is used for fitting the screw profile when cloud datas pretreatment is already done such as eliminated noise data and data reduction, the fitting error is also analyzed.
通过对测量数据的噪声点过滤,数据精简等预处理,采用NURBS曲线拟合螺杆型线并分析了其拟合误差。
The phase detection and curve-fitting techniques have been used in processing the interferogram, and sub-pixel measuring error has been obtained.
在干涉图的处理中,采用了相位检测和曲线拟合技术,得到了亚象素的测量精度。
In this paper, a method of curve fitting with asymptotic line is proposed for reducing the error of extrapolation value.
本文提出一种降低拟合曲线外推偏差的方法——渐近线辅助拟合法。
Then the response surface method(RSM) is utilized to establish the response surfaces or curve of SEA vs. material parameters and the curves of relative error in high-order polynomial fitting.
采用响应面法建立了表示比吸能随材料参数而变化的曲面,和高次多项式拟合时的相对误差曲线。
Then the response surface method(RSM) is utilized to establish the response surfaces or curve of SEA vs. material parameters and the curves of relative error in high-order polynomial fitting.
采用响应面法建立了表示比吸能随材料参数而变化的曲面,和高次多项式拟合时的相对误差曲线。
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