A bounded linear integrator for some diffusive nonlinear time-dependent partial differential equations

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• 作者：J.E. Mací ; as-Dí ; az^a ; ^{jemacias@correo.uaa.mx} ; J.A. Guerrero^b ; ^{jaguerrero@correo.uaa.mx}
• 关键词：65M06 ; 35K57 ; 35K61
• 刊名：Journal of Computational and Applied Mathematics
• 出版年：2017
• 出版时间：July 2017
• 年：2017
• 卷：318
• 期：Complete
• 页码：515-528
• 全文大小：1214 K
• 卷排序：318

文摘

We propose a numerical method to approximate the solutions of generalized forms of two bi-dimensional models of mathematical physics, namely, the Burgers–Fisher and the Burgers–Huxley equations. In one-dimensional form, the literature in the area gives account of the existence of analytical solutions for both models, in the form of traveling-wave fronts bounded within an interval II of the real numbers. Motivated by this fact, we propose a finite-difference methodology that guarantees that, under certain analytical conditions on the model and computer parameters, estimates within II will evolve discretely into new estimates which are likewise bounded within II. Additionally, we establish the preservation in the discrete domain of the skew-symmetry of the solutions of the models under study. Our computational implementation of the method confirms numerically that the properties of positivity and boundedness are preserved under the analytical constraints derived theoretically. Our simulations show a good agreement between the analytical solutions derived in the present work and the corresponding numerical approximations.