Time-stepping in Petrov–Galerkin methods based on cubic B-splines for compactons
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摘要
Four numerical methods with first- to fourth-order of accuracy have been developed for the time integration of the Rosenau–Hyman K(2, 2) equation. The error in the solution and the invariants for the propagation of one-compacton, and the stability in collisions among compactons have been studied using these methods. Numerically-induced radiation has also been characterized by means of wavefront velocity and wavefront amplitude, showing that the self-similarity of the radiation wavepackets observed in the numerical results is a consequence of the time-stepping method. Among the four methods studied in this paper, the best results in terms of accuracy, computational cost, and stability have been obtained by means of using the second-order time integration method.
论文关键词:Compacton,Rosenau–Hyman equation,Numerical methods,Time integration
论文评审过程:Available online 11 August 2010.
论文官网地址:https://doi.org/10.1016/j.amc.2010.08.013