This graduate-level course is an advanced introduction to applications and theory of numerical methods for solution of differential equations.
这门研究生程度课程是对微分方程数值解法的应用和理论的高级导论。
On the basis of the asymptotic stability of generalized delay differential equations(GDDEs), the numerical solutions of one block methods for GDDEs were analysed.
在广义延迟系统渐近稳定的前提下,分析了用块方法求解广义延迟系统数值解的稳定性。
Numerical methods available in MATLAB for solving the ordinary differential equations are employed for the dynamic analysis.
适用于MATLAB的数值方法用来解动力分析采用的差分方程。
This paper deals with the stability analysis of numerical methods for the solution of delay differential equations.
本文给出了延迟微分方程数值解的稳定性分析。
In this paper, line methods for two dimension transpiration control equations are created, and new equations may be solved in terms of numerical methods for system of ordinary differential equations.
对二维发汗控制方程建立了直线解法,可用任何解常微分方程组的数值方法求解。
As numerical examples we treat state constrained optimal control problems for elliptic differential equations. We also compare the established results with existing methods.
以其作数值例子,我们处理椭圆微分方程中的状态约束最优控制问题,并对既定结果与现行方法进比较。
Only the Euler method is popular and efficient among the numerical methods for the stochastic delay differential equations, but its order of convergence is only 1/2.
随机延迟微分方程数值方法中欧拉方法是唯一较为成熟、有效的方法,但欧拉方法的收敛性差,其收敛阶仅为二分之一。
Only the Euler method is popular and efficient among the numerical methods for the stochastic delay differential equations, but its order of convergence is only 1/2.
随机延迟微分方程数值方法中欧拉方法是唯一较为成熟、有效的方法,但欧拉方法的收敛性差,其收敛阶仅为二分之一。
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