This paper establishes a fluid dynamic equation for a reciprocating pump-piping hydraulic system with the transfer matrix method and deduces all the transfer matrixes of the subsystems.
本文用传递矩阵的方法建立了描述往复泵—管路液力系统流体动力特性方程,井导出了各子系统的传递矩阵。
The stiffness matrix corrected by the method not only satisfies the characteristic equation, but also is the unique symmetric positive semidefinite matrix.
用这个方法修正的刚度矩阵不仅满足特征方程,而且是唯一的对称半正定矩阵。
Based on the original precise integration method, the problem that singular matrix appears in non-homogeneous equation was discussed.
在原有精细积分法的基础上,对非齐次方程出现奇异矩阵的问题进行探讨。
The main method is using the properties of the solutions of characteristic matrix equation.
主要的方法是利用矩阵差分方程的特征矩阵方程解的性质。
By elementary rank transformations of matrix, a method has been obtained to solve linear diophantine equation with some variables. The method overcomes the deficiency of traditional method.
利用矩阵的初等列变换,给出了求解多元线性不定方程的一种方法,该方法改进了传统方法计算量大、步骤多的缺点。
Based on the thermal balance equation of heater element, the matrix for the cyclic functional method is established and the rules to fill this matrix are represented detailedly in this paper.
基于循环函数法的主导思想,通过对“加热单元”列能量平衡方程,构建了循环函数法的矩阵表达式,并对矩阵填写规则进行了详细阐述。
With the aid of vector method, constraint equation, kinetic energy consideration, the inverse position model, Jacobian matrix and mass matrix have been developed.
本文取得如下成果:借助矢量法、约束方程和动能定理分别构造出机械手的位置逆解模型、速度雅克比矩阵、质量惯性矩阵。
A new transformation method for follow-up coordinate system is used and a matrix equation for transforming spatial transporting coordinate of scattering photons is given.
应用一种新的随动坐标系转换方法,给出用于转换生物组织中光子空间传输坐标的矩阵方程。
The method is used to build the boundary integral equation by a serious of particular solutions. It can avoid calculating the coefficient matrix directly.
该方法通过一系列特解来建立边界积分方程,从而避免了其系数矩阵的直接计算。
A method for computing the gain matrix is given based on the modal coordinate equation.
在广义模态坐标的基础上讨论了增益矩阵的计算方法。
By applying the transfer matrix method to the finite strip method the more simultaneous frequency equation is thus simplified to a two-frequency equation problem.
此法是将有限条法与传递矩阵法结合使用,一般能将频率方程压缩到二阶,对于变厚板显得更为有效。
The stiffness matrix corrected by the method not only satisfies the characteristic equation, but also is the …
用这个方法修正的刚度矩阵不仅满足特征方程,而且是唯一的对称半正定矩阵。
According to the filter matrix particularity, the filter equation was solved by using conjugate gradient method.
并根据滤波矩阵的特殊性,?用共轭梯度法求解滤波方程。
A upper bound with consistent matrix norm and the estimate for error of AOR iterative method for solving linear equation system, which based on the doubly diagonal dominance, are presented.
在双严格占优矩阵条件下,给出了相容矩阵范数的一个上界,并以此为基础,得到了线性方程组求解时的AOR迭代法的误差估计式。
In the algorithm test, Runge-Kutta method and the Picard approximation method were used to make the solution for the matrix equation of the profile calculation, and I evaluated the data obtained.
在算法测试中,采用四阶龙格库塔法和毕卡逼近法分别对姿态矩阵方程进行了解算,并对得到的数据进行测试和评估。
In this paper, iterative method in groups for solving these three matrix equations is studied when the equation has a unique solution.
本文讨论这三类线性矩阵方程惟一解的分组迭代解法。对三类矩阵方程的几类迭代格式的分组迭代解法,主要解决了如下几个问题。
First, the problem of scattering by arbitrarily shaped objects is studied by the method of moment (MoM), when a thin wire antenna exists, with the general matrix equation given.
介绍了利用矩量法求解线面复杂结构目标的电磁散射问题,并给出了一般的矩阵方程。
The per-unit-length capacitance matrix used in multi-conductor transmission line coupling equation can be solved by Moment Method.
对于多导体中所需要的单位长度电容和电感矩阵,使用矩量法进行分析。
To meet these problems, an application of B-differentiable Equation method for the contact problem is presented and the contact flexibility matrix is no longer needed.
为此,本文利用接触条件的B-可微方程组形式,提出了一种不需形成柔度阵的求解方法。
Then, the modified transfer matrix method is used in dynamic analysis of the tall buildings. The transfer matrix equation and its solutions are given in this paper.
同时,本文将改进的传递矩阵法用于高层建筑动力分析,导得了传递矩阵方程及其解的表达式。
A method for state equation formulation of electric circuits by means of signal flow graphs and matrix signal flow graphs is presented.
本文提出用矩阵信号流图和信号流图编写电路状态方程的方法。
Using combine field integral equation and progressive iterative numerical method, the size of method of moment system matrix that need to be inverted and the computational time can be greatly reduced.
目标被分成一些小区域,因此缩小了所需要求逆的矩阵的大小并且减少了计算时间。
Using combine field integral equation and progressive iterative numerical method, the size of method of moment system matrix that need to be inverted and the computational time can be greatly reduced.
目标被分成一些小区域,因此缩小了所需要求逆的矩阵的大小并且减少了计算时间。
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