An Efficient Numerical Scheme Based on Lucas Polynomials for the Study of Multidimensional Burgers-Type Equations
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Date
2021
Journal Title
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Publisher
Springer
Open Access Color
GOLD
Green Open Access
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Top 10%
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Abstract
We propose a polynomial-based numerical scheme for solving some important nonlinear partial differential equations (PDEs). In the proposed technique, the temporal part is discretized by finite difference method together with theta-weighted scheme. Then, for the approximation of spatial part of unknown function and its spatial derivatives, we use a mixed approach based on Lucas and Fibonacci polynomials. With the help of these approximations, we transform the nonlinear partial differential equation to a system of algebraic equations, which can be easily handled. We test the performance of the method on the generalized Burgers-Huxley and Burgers-Fisher equations, and one- and two-dimensional coupled Burgers equations. To compare the efficiency and accuracy of the proposed scheme, we computed L-infinity, L-2, and root mean square (RMS) error norms. Computations validate that the proposed method produces better results than other numerical methods. We also discussed and confirmed the stability of the technique.
Description
Ali, Dr. Ihteram/0000-0002-6765-1559
ORCID
Keywords
Lucas Polynomials, Fibonacci Polynomials, Finite Differences, Stability Analysis, Mathematical analysis, Quantum mechanics, Convergence Analysis of Iterative Methods for Nonlinear Equations, Lucas polynomials, QA1-939, FOS: Mathematics, Nonlinear Equations, Anomalous Diffusion Modeling and Analysis, Finite differences, Numerical Analysis, Physics, Stability analysis, Statistical and Nonlinear Physics, Partial differential equation, Applied mathematics, Algorithm, Fractional Derivatives, Physics and Astronomy, Burgers' equation, Modeling and Simulation, Physical Sciences, Nonlinear system, Fibonacci polynomials, Fractional Calculus, Mathematics, Rogue Waves in Nonlinear Systems, Discretization, Numerical analysis, Soliton equations, finite differences, stability analysis, Finite difference methods for initial value and initial-boundary value problems involving PDEs, Fibonacci and Lucas numbers and polynomials and generalizations, Finite element, Rayleigh-Ritz and Galerkin methods for initial value and initial-boundary value problems involving PDEs, Stability and convergence of numerical methods for initial value and initial-boundary value problems involving PDEs, Spectral, collocation and related methods for initial value and initial-boundary value problems involving PDEs
Fields of Science
02 engineering and technology, 01 natural sciences, 0202 electrical engineering, electronic engineering, information engineering, 0101 mathematics
Citation
Ali, Ihteram...et al. (2021). "An efficient numerical scheme based on Lucas polynomials for the study of multidimensional Burgers-type equations", Advances in Difference Equations, Vol. 2021, No. 1.
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Q1
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OpenCitations Citation Count
21
Source
Advances in Difference Equations
Volume
2021
Issue
1
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CrossRef : 14
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