首先给出了整数矩阵的定义及性质,然后讨论了它在求整数的最大公因数和解整系数不定方程中的应用。
This paper first gets definition and theorems of integers matrices, and then to discusses a new method to find the greatest common factor of integers and solves linear indeterminate equation.
它利用了不定导纳矩阵的概念,在符号网络函数的产生中应用了代数法与符号编码相结合的方法。
It is based on the concept of indefinite admittance matrix, and USES an algebraic method of symbolic code in the generation of symbolic network functions.
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。
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.
给出了线性不定方程组与线性同余式组的新矩阵解法。
The matrix method of solving diphantine equations and congruence expressions is developed in this paper.
依此建立了不定期船航次决策的层次结构,并构造了符合一致性标准的判断矩阵,从而作出不定期船航次的AHP决策。
Then the hierarchy structure of TSVD and its judgment matrix corresponding to the consistent standard are established, thus the AHP decision making on tramp ship voyage is given.
利用这些规则,可以通过对无约束网络的不定导纳矩阵进行初等的行、列变换得到约束网络的导纳矩阵。
With the rules, the nodal admittance matrix can be obtained by simple row and column transformations in the unconstrained indefinite-admittance matrix.
系统的稳定界和反馈控制器可以通过求解一类线性矩阵不定式约束的凸优化问题得到。
The robust stable bound and the state feedback controller can be obtained by solving a class of convex optimization problems with LMI constraint.
本文简要地介绍了不定导纳矩阵的基本概念,讨论了应用于高频小信号放大器的分析方法,给出了应用实例,并得出放大器的增益和输入阻抗表达式。
In this paper the concept of IAM is introduced and the method Used for analyzing H. F. small signal amplifier is discussed. The expressions of gain and input impedance of amplifier are given.
本文简要地介绍了不定导纳矩阵的基本概念,讨论了应用于高频小信号放大器的分析方法,给出了应用实例,并得出放大器的增益和输入阻抗表达式。
In this paper the concept of IAM is introduced and the method Used for analyzing H. F. small signal amplifier is discussed. The expressions of gain and input impedance of amplifier are given.
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