Discrete-time accelerated block successive overrelaxation methods for time-dependent Stokes equations
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摘要
To further study the application of waveform relaxation methods in fluid dynamics in actual computation, this paper provides a general theoretical analysis of discrete-time waveform relaxation methods for solving linear DAEs. A class of discrete-time waveform relaxation methods, named discrete-time accelerated block successive overrelaxation (DABSOR) methods, is proposed for solving linear DAEs derived from discretizing time-dependent Stokes equations in space by using “Method of Lines”. The analysis of convergence property and optimality of the DABSOR method are presented in detail. The theoretical results and the efficiency of the DABSOR method are verified by numerical experiments.
论文关键词:Differential–algebraic equations,Linear convolution operator,Saddle-structure,Time-dependent Stokes equation,Waveform relaxation method
论文评审过程:Available online 24 August 2013.
论文官网地址:https://doi.org/10.1016/j.amc.2013.07.069