微分-代数方程,differential-algebraic equation英语短句,例句大全

微分-代数方程,differential-algebraic equation
1)differential-algebraic equation微分-代数方程
1.Dynamic equations of multibody systems with constraints induced by the first kind of Lagrange s equations are nonlinear differential-algebraic equations.应用第1类Lagrange方程建立的带约束多体系统动力学方程为非线性微分-代数方程组。
2.The conserved constrained dynamical system derives to differential-algebraic equation.微分-代数方程的约束带来Lagrange参变函数转变而得的微分方程,有其指标问题,扩大了求解的规模。
2)differential-algebraic equations微分代数方程组
1.Unlike traditional algorithms,the new algorithm is constructed by reducing the models to differential-algebraic equations with index 1 and using backward differentiation formulae with varable order and step size.给出了一种能有效求解反应精馏微分代数方程组模型的数值算法。

英文短句/例句

1.DIFFERENTIAL TRANSFORM METHOD FOR HIGH INDEX DIFFERENTIAL-ALGEBRAIC EQUATIONS求解高指数微分代数方程组的微分变换法(英文)
2.Numerical Solutions of Modern Differential Equations ?现代微分方程数值解
3.Linear Algebra & Differential Equations线性代数与微分方程
4.On the Estimate of Growth Order of Solutions of a Class of Systems of Algebric Differential Equations with Higher Orders一类高阶代数微分方程组解的增长级估计
5.The Alternating Group Explicit Iterative Method for the Partial Differential Equation;偏微分方程的交替分组显式迭代方法
6.Systems of linear differential equations can be handled by using the methods of linear algebra.线性微分方程组可以应用线性代数中的方法求解。
7.On the Numerical Hopf Bifurcations for Delay Differential Equations;时滞微分方程组的数值Hopf分支分析
8.A Feature Analysis of Numerical Solution for Partial Differential Equations;偏微分方程组数值解奇异性特征分析
9.L~p-STABILITY OF A CLASS NONLINEAR FRACTIONAL DIFFERENTIAL EQUATIONS一类分数阶微分方程组的L~p稳定性
10.Differential Operator Method in Solving the Group of Constant-coefficient Non-homogeneous Liner Differential Equations常系数非齐次线性微分方程组的微分算子解法
11.(math) a condition specified for the solution to a set of differential equations.（数学）解一组微分方程的规定条件。
12.A Way of Constant Coefficient Homogeneous Linear Differential Equations;常系数齐线性微分方程组的一种解法
13.A solution method for certain differential equations with constant coefficients;带常系数某类微分方程组的一种解法
14.Numerical Analysis of One-Leg Methods for a Class of Delay Differential Algebraic Equations;一类延迟微分代数方程的单支方法的数值分析
15.The Solution Method of the Square Dative in Differential Calculus in Line in A Type Per Rank Set and the Relation with Maths of Senior Middle School;一类一阶线性常微分方程组的解法及其与中学数学代数方程的联系
16.characteristic equation of differential equation system微分方程组的特征方程
17.Differential Equations for Singular Vectors of sl(∞);李代数sl(∞)奇异向量的偏微分方程(英文)
18.SOLUTION FOR SYSTEM OF LINEAR FRACTIONAL DIFFERENTIAL EQUATIONS WITH CONSTANT COEFFICIENTS常系数线性分数阶微分方程组的解(英文)

相关短句/例句

differential-algebraic equations微分代数方程组
1.Unlike traditional algorithms,the new algorithm is constructed by reducing the models to differential-algebraic equations with index 1 and using backward differentiation formulae with varable order and step size.给出了一种能有效求解反应精馏微分代数方程组模型的数值算法。
3)differential-algebraic equations微分-代数方程组
4)Differential-algebraic equation微分代数方程
1.Asymptotic stability of θ-methods for differential-algebraic equations with several delays;多延迟微分代数方程θ-方法的渐近稳定性(英文)
2.Dynamic equations of multi-body systems with holonomic constraints are differential-algebraic equations.多体系统动力学方程为微分代数方程,一般将其转化成常微分方程组进行数值计算,在数值积分的过程中约束方程的违约会逐渐增大。
3.In numerically solving ordinary differential equations and differential-algebraic equations block methods are efficient.在求解常微分方程和微分代数方程中,块方法是一种有效的方法。
5)differential-algebraic equations微分代数方程
1.Fundamental concepts in power system differential-algebraic equations (DAE) model, like singular point and multiple energy function sheets defined on constraint manifolds, are studied.所得研究成果揭示了微分代数模型与奇异扰动模型的本质区别、奇异性与系统模型和系统负载的联系、结构保持能量函数法可能具有的内在保守性等,这对深入理解电力系统微分代数方程模型的拓扑结构、结构保持能量函数法和暂态电压稳定及其与功角稳定的关系具有一定的价值。
2.After the reduction of the degree of freedom and the proper transformation, the dynamic analysis of a braced frame with friction dampers sum up to solve a differential-algebraic equations of index 1.本文提出粘性屈服模型来模拟摩擦耗能元件的力—速度关系,该模型是连续变化的,克服了库仑摩擦模型不连续导致数值计算复杂的缺点,在进行摩擦耗能体系的动力分析中,采用缩减自由度技术,并作适当的变换,则带有摩擦耗能元件体系的动力分析归结为求解微分代数方程,本文采用增量型Rosenbrock二级三阶半隐式Runge-Kutta法求解该方程,以考虑框架和支撑的材料和几何非线性。
6)differential algebraic equations微分代数方程
1.Based on large deformation geometrical relations, a mathematical model described with differential algebraic equations is presented for axisymmetric hyperbolic thin-metal shells with variable thickness under internal pressure, which remedies the low precision in solving finite strain problems based on Gleyzal’s geometrical relations expanded with Taylor’s formula.对承受内压、非等厚轴对称双曲薄壳,基于大塑性变形几何关系,通过严格的数学推导,建立了用微分代数方程组描述的数学模型。
2.This paper is devoted to the application of the parallel multistep hybrid method to the numerical solution for a class of Index-2 differential algebraic equations,and the errors are estimated,it has obtained the extremely ideal result.将并行多值混合方法应用于一类2-指标微分代数方程的数值处理,并进行误差估计,获得了十分理想的结果。
3.Simulation model described by the Modelica language can be translated into a system of differential algebraic equations.基于Modelica语言建立的仿真模型可以映射为一个微分代数方程系统。