This paper proposed a new algorithm for image restoration based on spatial continuity and differential approximation.
文中提出了一种基于微分近似、利用图像的空间连续性进行图像修复的算法。
This paper proposed a new algorithm for image restoration based on spatial continuity and differential approximation.
图像修复是对图像的破损区域进行填充,主要是利用待修复边缘信息对待修复区域进行填充。
This paper gives a brief description and analysis of two general methods of selectingcorrection factors, those are, by cut and trial and by differential approximation.
本文简要地介绍与分析了变位系数的一般选取方法即试算法与微分逼近法。
Under homogeneous conditions, the application of this equation may give a differential approximation of high order accuracy for Lapace equation, Poisson equation and heat conduction equation.
在矩形网格上的九点差分近似的正确公式。使用它,在均质情况下,对拉普拉斯方程、布阿松方程和热传导方程可以构造出高阶精度的差分近似。
The factors, which introduce the error of temporal differential estimation are, analyzed. The successive approximation calculation model for the optical flow estimation is put forward.
分析了光流计算中产生时域微分估计误差的各种因素,提出了光流的逐次逼近计算模型。
In the framework of the distorted wave approximation, we discuss the differential cross section and polarization of antiproton-nucleus inelastic scatterings at intermediate energies.
在扭曲波冲量近似下,讨论中能区反质子与原子核非弹性散射的微分截面和极化度。
Not only a new expression of the turbine's discharge and differential pressure of the Spiral case was proposed, but also the detailed approximation process and computing formula were given.
并给出了新的水轮机流量与蜗壳压差关系表达式,同时也给出了详细的逼近计算过程和计算公式。
It is discussed that the numerical approximation of interface problems for elliptic partial differential equations.
讨论了椭圆型偏微分方程内边界问题的数值逼近。
The time evolution of system in two photon Jaynes Cummings (J C) model without rotating waves approximation (RWA) is obtained by using the theory of ordinary differential equations.
采用常微分方程理论研究了无旋波近似下双光子J-C模型系统的时间演化。
This paper performs one-way wave decomposition for 3d wave equation, and 2 kinds of high approximation of up-going wave equation in low order differential equation system are derived.
对三维波动方程做单程波分解,给出了用低阶偏微分方程组逼近上行波方程的2种高阶近似表达式。
Using maximum approximation of differential Negentropy, an objective function for ICA is introduced and a Fast-ICA algorithm based on maximum Negentropy is presented.
使用差分最大负平均信息量的方法,一个为ica的目标函数和一个快速ica算法在文中被提出。
Using maximum approximation of differential Negentropy, an objective function for ICA is introduced and a Fast-ICA algorithm based on maximum Negentropy is presented.
使用差分最大负平均信息量的方法,一个为ica的目标函数和一个快速ica算法在文中被提出。
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