Solving the BBMB Equation in Shallow Water Waves via Space-Time MQ-RBF Collocation

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Detalles Bibliográficos
Publicado en:	Computer Modeling in Engineering & Sciences vol. 144, no. 3 (2025), p. 3419-3433
Autor Principal:	Ma, Hongwei
Outros autores:	Tian, Yingqian, Wang, Fuzhang, Quanfu Lou, Yu, Lijuan
Publicado:	Tech Science Press
Materias:	Shallow water Mathematical analysis Radial basis function Meshless methods Water waves Collocation methods Applied mathematics Partial differential equations Science Numerical analysis Spacetime Engineering Methods Finite element analysis Boundary conditions
Acceso en liña:	Citation/Abstract Full Text - PDF
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Descripción
Resumo:	This study introduces a novel single-layer meshless method, the space-time collocation method based on multiquadric-radial basis functions (MQ-RBF), for solving the Benjamin-Bona-Mahony-Burgers (BBMB) equation. By reconstructing the time variable as a space variable, this method establishes a combined space-time structure that can eliminate the two-step computational process required in traditional grid methods. By introducing shape parameter-optimized MQ-RBF, high-precision discretization of the nonlinear, dispersive, and dissipative terms in the BBMB equation is achieved. The numerical experiment section validates the effectiveness of the proposed method through three benchmark examples. This method shows significant advantages in computational efficiency, providing a new numerical tool for engineering applications in fields such as shallow water wave dynamics.
ISSN:	1526-1492 1526-1506
DOI:	10.32604/cmes.2025.070791
Fonte:	Advanced Technologies & Aerospace Database