1.
New reduction method for the differential-algebraic system
微分代数方程系统的一类新的归约方法
2.
Discrete-time Waveform Relaxation Methods of Nonlinear Differential-Algebraic Equations;
非线性微分代数方程系统的离散波形松弛方法
3.
Applications of Computer Algebra System to the Study of Differential Equation;
计算机代数系统在微分方程研究中的应用
4.
calculus, differential equations, linear algebra, statistics, computer science and at least one in numerical analysis, matrix algebra or computer systems.
微积分,微分方程,线性代数,统计,计算机科学和至少一数值分析,矩阵代数或计算机系统.
5.
Study of Hamiltonian System Based on Differential Algebraic Equations and Its Application in Power System Stability Control;
微分代数方程Hamilton系统及其在电力系统稳定控制中的应用研究
6.
SYMBOLIC LINEARIZATION OF DIFFERENTIAL/ALGEBRAIC EQUATION FOR MULTIBODY SYSTEM BASED ON FULLY CARTESIAN COORDINATES
基于完全笛卡尔坐标的多体系统微分-代数方程符号线性化方法
7.
THE VOLTAGE STABILITY OF A DAE MODEL FOR SINGLEMACHINE INFINITE BUS SYSTEM
单机无穷大系统微分代数方程模型的电压稳定性
8.
Numerical Solutions of Modern Differential Equations ?
现代微分方程数值解
9.
Linear Algebra & Differential Equations
线性代数与微分方程
10.
Apply Lagrange equation of the first kind to the system , and get a set of the differential - algebraic equations (DAEs) of its absolute coordinates .
对系统应用第一类拉格朗日方程,得到系统位形坐标的微分 — 代数方程组。
11.
The numerical analysis method for solving dynamics differential equations of gear systems
齿轮系统动力学微分方程的数值分析方法
12.
Numerical Stability of Delay-Differential-Algebraic Systems and Block Methods;
延迟微分代数系统的数值稳定性及其块方法
13.
Variable Substitution Method For Changing Several Kinds of Variable Coefficient Differential Equation Into Constant Coefficient Equation
几类变系数微分方程化为常系数方程的变量代换法
14.
linear differential equation with constant coefficients
常系数线性微分方程
15.
The properties of solutions of linear differential equations with entire coefficients of finite iterated order
有限迭代级整系数线性微分方程解的性质
16.
Based on the fully Cartesian coordinates, a differential/algebraic equation system of multibody system dynamics is obtained.
利用完全笛卡尔坐标描述多刚体系统,建立多刚体系统动力学微分-代数方程。
17.
Two - term Fractional - order Differential Equation Applied in Controlled System;
两项分数阶微分方程在控制系统的应用
18.
The Existence of Solution to Boundary Value Problems for a Coupled System of Nonlinear Fractional Differential Equations
分数阶微分方程耦合系统边值问题解的存在性