函数的微分法
- 与 函数的微分法 相关的网络例句 [注:此内容来源于网络,仅供参考]
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This paper, firstly, after a deep study of image mathematical models, sets up two kinds of image models namely Laplace partial differential equation model and biharmonic equation model and then obtains the eigenvectors of image by the methods of eigenfunction expansion and boundary recurrence.
本文首先较深入地研究了图象的数学描述,提出图象的Laplace偏微分方程和双调和方程两种模型,继而采用特征函数展开法和边界递推法分别求得图象的特征矢量。
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The variational problems of the complete functional in calculus of variations are studied deperding on the arbitrary arguments,arbitrary multivariable functions and arbitrary-order partial derivatives of multivariable functions.
研究变分法中依赖于任意个自变量、任意个多元函数和任意阶多元函数偏导数的完全泛函的变分问题;提出并证明了完全泛函的变分问题的定理,采用偏微分算子,给出了完全欧拉方程组。
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In the method,thematrix exponential is calculated precisely by using 2N algorithm and the integration offunctional matrix by parts is applied.
首先依据常微分方程的经典理论,运用指数矩阵的2N类精细算法及函数矩阵的分部积分法建立数值求解常微分方程的一般方法。
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Some methods for dealing with the stability problem has presented and these methods include: Lyapunov function, differential inequality, matrix norm and measure, Razumikhin theorem method etc. The results of stability for these systems are derived by using these methods. This paper may be summarized as follows.
本文考察了区间Lurie型控制系统与不确定时滞系统的稳定性问题,给出了判定系统稳定的一些处理方法,这些方法包括:Lyapunov函数法、微分不等式法、矩阵范数与测度法、Razumikhin定理等方法,并且应用这些方法得到了系统稳定的判别条件。
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In Chapter 5, some knowledge about large-scale system and methods for investigating them are introduced, Lyapunov function, differential inequality, Razumikhin theorem, matrix norm and measure methods have been used to discuss the stability of uncertain large-scale system with delays and decay estimates for uncertain time-varying large-scale system with delays, the criteria of stability and decay estimates for uncertain large-scale system with delays are given.
第五章首先介绍了大系统的有关知识以及时滞大系统研究的方法,然后利用Lyapunov函数法、微分不等式法、Razumikhin定理法、矩阵范数与测度法研究了不确定定常时滞大系统的稳定性以及不确定时变时滞大系统的稳定性与系统衰减率的估计问题,得到了系统稳定的判别条件以及系统衰减率的估计。
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The noise frequency modulation signal was particularly analyzed. The Fokker-Planck equation of noise frequency modulation was presented and the Motion-Group Fourier Transform was used by converting the partial differential equation into the variable coefficient homogenous linear differential equations. Then the solutions were given by using the peano-baker series. So the probability density function of noise frequency modulation in the filter was given. On the basis of the probability density function the stochastic resonance of noise frequency modulation signal is analyzed.
首先建立了噪声调频干扰信号通过脉冲压缩雷达中频滤波器后所满足的福克尔-普朗克方程,然后利用群移傅立叶变换(Motion-Group Fourier Transform,MGFT)将此偏微分方程化成了变系数齐次线性微分方程组,并利用Peano-Baker级数法给出了该方程组的解,最后得到了噪声调频干扰信号通过脉冲压缩雷达中频滤波器后的概率密度函数,在此基础上研究了噪声调频干扰信号造成的随机共振现象。
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Themethod is based on a decomposition of atomic wavefunction〓 into a product of a correlation factor 〓,partially describing the wavefunctioncharacteristics,and the other factor 〓,which is stillexpanded in the symmetric basis function of 〓permutation group.
将Li原子的波函数ψ分解为两项之积,即ψ=Xφ,X=exp-α(〓;而φ仍向〓群的对称基展开,得出超球径耦合微分方程,〓(1)其中,〓和〓为方阵,〓为对角阵,〓(2)再利用广义Laguerre函数展开法对其求解,得到系数矩阵的递推关系式。
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The asymptotic solutions of non-uniform conical shells under arbitrary boundary conditions are determined by double-parameter perturbation technique and transfer function method.
利用摄动方法,将微分方程进行双参量摄动,采用传递函数法对所得到的摄动方程进行求解,得到了变厚度圆锥壳在任意边界条件下的渐近传递函数解。
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By introducing the NCP function, the KKT conditions of POPF system are transformed equivalently. Based on the transformed nonsmooth nonlinear algebraic equations, the FOSMM is used to determine the POPF model expressed by the numerical characteristic of variables. The model includes nonsmooth functions, so it can be solved by a semismooth L-M method based on the subdifferential.
将概率最优潮流表述为随机非线性规划问题后,利用非线性互补函数将该问题的KKT条件进行转化,基于转化后的非线性代数方程组,利用一次二阶矩法确定了以待求量的数字特征表示的概率最优潮流模型,由于该模型包含不光滑函数,因此采用基于次微分的半光滑L-M方法求解。
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The nonlinear dynamic system with quadratic and cubic nonlinearities is obtained by applying mathematical transformation to the equation.
基於Karman方程的动态比拟,运用Galerkin法,选用合适的正交函数将控制薄板振动的偏微分方程离散化为常微分方程,得到一带有平方和立方非线性的参数激励和外激励联合作用的非线性动力学系统。
- 推荐网络例句
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Lugalbanda was a god and shepherd king of Uruk where he was worshipped for over a thousand years.
Lugalbanda 是神和被崇拜了一千年多 Uruk古埃及喜克索王朝国王。
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I am coming just now,' and went on perfuming himself with Hunut, then he came and sat.
我来只是现在,'歼灭战perfuming自己与胡努特,那麼,他来到和SAT 。
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The shamrock is the symbol of Ireland and of St.
三叶草是爱尔兰和圣特里克节的标志同时它的寓意是带来幸运。3片心形叶子围绕着一根断茎,深绿色。