摘要
利用时间间断空间连续的时空有限元方法构造了空间分数阶反应扩散方程组的可以逐时间层求解的全离散格式.在时间离散区间上,采用Radau积分公式,将插值理论与有限元理论相结合,给出了全离散格式解的存在唯一性结果,并证明了所给格式是无条件稳定的,进而详细给出最优阶L~∞(L^2)模误差估计过程.最后用数值算例验证了理论分析的正确性.
A time-stepping fully discrete scheme for the system of space fractional reaction-diffusion equations is constructed by the space-time finite element method, which is discontinuous in time and continuous in space. Existence and uniqueness for the solution of the fully discrete scheme are analyzed by combining finite element theory and interpolation theory through the Radau integral formula in time discrete intervals. The scheme is proved to be stable unconditionally. The optimal order error estimates in L∞(L^2) norm are presented in detail. Numerical examples are given to illustrate the validity of theoretical analysis.
出处
《计算数学》
CSCD
北大核心
2016年第2期143-160,共18页
Mathematica Numerica Sinica
基金
国家自然科学基金(11361035
11301258)
内蒙古自然科学基金(2012MS0106
2012MS0108
2014BS0101)资助项目
关键词
反应扩散方程组
全离散格式
存在唯一性
稳定性
误差估计
system of reaction-diffusion equations
fully discrete scheme
existence anduniqueness
stable unconditionally
error estimate