There are many variations of the iterative method.
迭代方法有多个变体。
The convergence of this iterative method is proved.
证明了迭代方法的收敛性。
Finite-difference iterative method is used for numerical solution.
应用差分迭代方法进行了数值求解。
The paper gives an iterative method of linear prediction spectral estimation.
本文给出线性预测谱估计一种迭代方法。
Alternating iterative method is a simplified form of the unified iterative method.
交替迭代法是统一迭代法的简化。
If systems have the sole solution, this iterative method is unconditionally convergent.
只要方程组存在唯一解,这种迭代方法便是无条件收敛的。
A corresponding iterative method is presented by making use of conjugate gradient method.
利用共轭梯度法的思想,建立相应的迭代算法。
Finally, we use a iterative method to interpolated reconstruct the high resolution images.
在图象配准的基础上,我们利用一个迭代的散乱点插值方法来重构高分辨率图象。
This paper presents an iterative method for separating singular perturbation control systems.
文章提供了一种奇异摄动控制系统的迭代分解方法。
The usual methods include regularization method, iterative method, stochastic method and so on.
恢复的方法有正则化方法、迭代方法、统计方法等。
Iterative method is a basic method of numerical calculation, acceleration for iterate is a target.
迭代是数值计算中最基本的方法,迭代的加速一直是人们追求的目标。
Basied on the iterative method in this paper, a calculating formula of matrix iteration was derived.
本文在迭代法基础上推导出矩阵迭代法的计算公式。
With the help of Newton formula and Vieta theorem, iterative method was used to solve problems of power sum.
借助牛顿公式和韦达定理,采用迭代的方法求解类似于自然数等幂和的问题。
The alternating group iterative method for the dispersive equation with periodic boundary condition is presented.
给出了求解具有周期边界条件色散方程近似解的交替分组迭代法。
Perturbations up to the sixth order obtained by an iterative method complete the theory of the four outer planets.
由迭代算法得到的直到六阶的摄动补充完整了远日的四个行星的理论。
The convergence of the iterative method is proved under some conditions, and an error estimate formula is presented.
在给定条件下,证明了该迭代法的收敛性,并给出了误差估计式。
An iterative method for solving the two points boundary value problem by the back - ward extend method is presented.
本文提出了一个用反向延拓法求解两点边值问题的一种迭代法。
A new distorted Born iterative method is applied to inversion of large formation region by using the multi information of array.
提出利用变形玻恩迭代方法将阵列多信息用于实际大区域地层反演的新方法。
In this paper, an iterative method is presented to find the least squares centrosymmetric solution to a kind of matrix equations.
本文提出了求一类矩阵方程组的最小二乘中心对称解的一种迭代法。
An iterative method would converge on one of the solutions, without any indication of the existence of the other ambiguous solution.
迭代方法会收敛于其中一个解而没有任何关于存在另一二义性解的指示。
The transition from a waterfall method to an iterative method and phases requires new modes of project organization and understanding.
从瀑布方法向迭代方法和阶段的转变需要项目组织和理解的新模式。
Finite-difference iterative method is used for numerical solution, and some curvatures varied with different parameters are obtained.
应用差分迭代方法进行了数值求解,得到了液晶指向矢随不同的参数变化的曲线。
The alternating group explicit iterative method for solving the neutral parabolic equation with initial boundary conditions is given.
提出了求解中立型抛物方程初边值问题的交替分组显式迭代方法。
And then an new iterative method is presented to solve the nonlinear equations system obtained from moving least-square approximation.
之后,借鉴牛顿法、平衡法和摄动法对由移动最小二乘法得到的非线性代数方程组提出了新的求解方法。
The advanced first order and second moment iterative method are employed for calculation on reliability index and failure probability.
采用改进的一次二阶矩法对腐蚀管道的可靠性指标和失效概率进行了分析和计算。
In this paper, we present an iterative method for determining whether all roots of characteristic polynomial are on the left half-plane.
本文提出一种确定特征多项式的全部根是否位于左半平面的迭代法。
Multilevel fast multipole method is used to fast calculate the matrix-vector product when we solve the linear system by iterative method.
分层快速多极算法被用来加速用迭代法求解线性方程组时的矩阵向量乘积的运算。
By the linear theory in the max-algebra, it presents the block network iterative method which is independent of the dimension of system matrix.
用极大代数意义下的线性系统理论提出了一种与系统矩阵维数无关的,模块网络迭代法。
Based on the objective function, local optimum and iterative method were adopted to get a computer solution on the optimum economical thickness.
对保温设计的目标函数,采用局部求优,逐步迭代的方法,实现了多层保温经济厚度计算机求解。
Based on the objective function, local optimum and iterative method were adopted to get a computer solution on the optimum economical thickness.
对保温设计的目标函数,采用局部求优,逐步迭代的方法,实现了多层保温经济厚度计算机求解。
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