Singular function method is introduced to derive the deflection equations of beams of variable cross section.
介绍了求变截面梁挠曲线方程的奇异函数法。
Singular function is an important distribution function of the singular random variable. It is studied widely.
奇异函数是一极为重要的奇异型随机变量的分布函数,被广泛研究。
In this paper, we use singular function method to simplify calculations of limit loads for annular plates with cantilever end.
本文应用奇异函数简化计算具有悬臂端环板的极限荷载。
There is a mistake about singular function calculation in the book of "Electric Circuit", which is widely used as the textbook by many colleges.
在目前高校广泛使用的《电路》一书中,出现了一处关于奇异函数的计算疏忽:计算结果遗漏了冲激项。
Based on the equilibrium equation of annular plates, the limit loads of annular plates under ultimate condition of the maximal moment were calculated by singular function.
从环板的平衡方程出发,应用奇异函数法计算其在最大弯矩极限条件下的极限荷载。
The properties of suspended structure are introduced and the singular function method is used to derive the lateral displacement stiffness matrix and the dynamic equations.
介绍了悬挂结构特点,利用奇异函数方法建立了悬挂框剪结构的侧移刚度矩阵和动力方程。
As one of the singular functions, step function plays an important role in the transient analysis of dynamic circuits and its definition is the key to analyze transient circuits.
阶跃函数是一种奇异函数,它在分析动态电路过渡过程中具有重要的作用,如何定义阶跃函数是正确应用其分析动态电路的关键。
The singular function is combined with Laplace 's transformation to calculate the deflection of stepwise beam. In this way the deflection equation of the beam is conveniently determined.
本文将奇异函数与拉普拉斯变换方法相结合,用这种方法来计算阶梯梁的弯曲变形,可以方便地求得梁的挠曲线方程。
In this paper, for discrete singular systems, the structural properties and design methods of regularity feedback control have been discussed by transfer function.
本文用传递函数方法讨论了离散广义系统正则反馈控制的结构性质和设计方法。
In this paper, the boundary layer function method, an effective method for the solution of singular perturbation, was presented and used to deal with the heat transfer in thin rectangular plates.
本文介绍了求解奇异摄动问题的一种有效方法——边界层函数法,并用此方法研究了在薄矩形板中的热传导问题。
Then, by Lyapunov function and linear matrix inequality(LMI), the sufficient conditions are given to make the singular networked control system exponentially stable.
利用李雅普诺夫函数方法和线性矩阵不等式方法,给出了广义网络控制系统指数稳定的充分条件。
Fourier transform only makes sure the feature of a function singular and can not confirm the position and of singular point on space.
傅立叶变换只能确定一个函数奇异性的整体性质,而难以确定奇异点在空间的位置及分布情况。
Especially, we give a calculation method for higher order singular integral by equation (3.1) when the wavelet function is unknown. At last, we create a convergence theorem.
特别是当小波函数未知时,借助于方程(3.1),对高阶奇异积分作数值计算,建立了收敛性定理。
When the vector potential function and the differential of the scalar potential function are computed, singular points would occur on TPM.
但在计算矢量位函数和标量位函数的微分过程中,TPM模型将产生奇异点。
It is shown that the expression of electric-type dyadic Green's function is the sum of an eigen-mode expansion containing nine dyadic components and a singular term.
得到的电型并矢格林函数表达式由包括九个并矢分量的本征模展开式和一个奇异项组成。
The system is based on J2EE and makes the function in every tier more singular by layering the 3-tier architecture.
本系统遵循J2EE标准,并在3-层结构的基础上再一次解耦,使每层的功能更加单一化。
Traditional laser constant sources are mostly analogue products, whose function is singular, operation is troublesome, protect part is not perfect.
传统的激光器恒流源多为纯模拟的产品,功能单一,操作烦琐,对激光器的保护不完善。
Relying on both stochastic calculus and optimal control theory, we obtain its explicit solution of optimal return function and corresponding singular control strategy.
利用随机积分及最优控制理论,得出了最大回报函数的显式解及相应的最优控制策略。
An improved SVD method was introduced by combining empirical orthogonal function (EOF) with singular value decomposition (SVD).
将奇异值分解同自然正交分解相结合,提出一种改进的正交奇异值分解方法。
The generalized density function of the singular normal distribution is also deducted in this paper.
定义了奇异正态分布的广义密度函数。
As applications of majorizing inequality of convex function of several variables, some majorizing inequalities of eigenvalue and singular value of matrix are obtained.
作为多元凸函数的控制不等式在矩阵方面的初步应用,获得了矩阵特征值和奇异值的简洁的控制不等式。
By using Z transform of a function, the general response formula for the general model of discrete singular systems is derived.
利用函数的Z -变换,获得了离散广义系统模型的一般响应公式,由此得到该模型的局部可达性与局部能控性的充分必要条。
The method of singular Lyapunov's function is employed to study the singular nonlinear discrete systems, the theorem of stability and the theorem of no stability on it are given.
利用广义李雅普·诺夫方法,研究了广义非线性离散系统,给出了广义非线性离散系统稳定性定理和不稳定性定理。
In physical application, there is a singular integral which is difficult to solve. Therefore, a common singular integral is derived by gamma function in this paper.
针对物理学中常常遇到的一个令人感到棘手的反常积分,运用伽马函数推导出了一个求解此类积分的普遍公式。
In physical application, there is a singular integral which is difficult to solve. Therefore, a common singular integral is derived by gamma function in this paper.
针对物理学中常常遇到的一个令人感到棘手的反常积分,运用伽马函数推导出了一个求解此类积分的普遍公式。
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