%0 Journal Article
%T 求解一类时间分数阶偏微分方程的高阶格式
Solving a Class of Time-Fractional Order Par-tial Differential Equations in High Order Scheme
%A 谭海花
%J Advances in Applied Mathematics
%P 4123-4132
%@ 2324-8009
%D 2023
%I Hans Publishing
%R 10.12677/AAM.2023.1210404
%X 本文研究了一类时间分数阶偏微分方程的数值解。首先,本文利用高阶加权本质无振荡(WENO)格式对空间变量进行离散化,使其在空间方向上达到高阶精度,因此得到一个只跟时间有关的常微分方程。接着在时间方向上应用指数和近似(SOE)时间分数阶Caputo导数,以减少内存和复杂度,达到快速计算的目的。其次,从理论上分析了WENO方法的高阶收敛性。最后通过数值实验验证了该方法的高阶精度。同时,应用该方法去数值求解含间断解的方程可以在非光滑区域保持本质无振荡,验证了该方法的有效性。
This paper investigates the numerical solution of a class of partial differential equations of time- fractional order. Firstly, the paper discretizes the spatial variables using the higher order weighted essential no oscillation (WENO) scheme to achieve high accuracy in the spatial direction, thus ob-taining an ordinary differential equation related only to time. Then, the exponential sum approxi-mation (SOE) to the time-fractional order Caputo derivative is applied in the time direction to re-duce memory and complexity for fast computation. Next, the higher-order convergence of the WENO method is analyzed theoretically. Finally, the higher-order accuracy of the method is verified by numerical experiments. Meanwhile, applying the method to solve the equations containing inter-rupted solutions numerically is found to maintain the essence of non-oscillation in the non- smooth region, which verifies the effectiveness of the method.
%K 高精度算法,WENO格式,SOE方法,本质无振荡,间断
High Accuracy Algorithm
%K WENO Scheme
%K SOE Method
%K Essentially Non-Oscillatory
%K Discontinuity
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=73259