An ADI extrapolated Crank-Nicolson orthogonal spline collocation method for nonlinear reaction–diffusion systems

An ADI extrapolated Crank-Nicolson orthogonal spline collocation method for nonlinear reaction–diffusion systems

An alternating direction implicit (ADI) orthogonal spline collocation (OSC) method is described for the approximate solution of a class of nonlinear reaction–diffusion systems. Its efficacy is demonstrated on the solution of well-known examples of such systems, specifically the Brusselator, Gray-Sco...

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Veröffentlicht in:Journal of computational physics 2012-08, Vol.231 (19), p.6248-6267
Hauptverfasser: Fernandes, Ryan I., Fairweather, Graeme
Format: Artikel
Sprache:eng
Schlagworte:
Alternating direction implicit method
Approximation
Brusselator
Computational techniques
Effectiveness
Exact sciences and technology
Extrapolated Crank-Nicolson method
Extrapolation
Gierer-Meinhardt
Gray-Scott
Mathematical methods in physics
Mathematical models
Nodular iron
Nonlinear reaction–diffusion systems
Nonlinearity
Norms
Orthogonal spline collocation
Physics
Schnakenberg models
Splines
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Beschreibung
Zusammenfassung:An alternating direction implicit (ADI) orthogonal spline collocation (OSC) method is described for the approximate solution of a class of nonlinear reaction–diffusion systems. Its efficacy is demonstrated on the solution of well-known examples of such systems, specifically the Brusselator, Gray-Scott, Gierer-Meinhardt and Schnakenberg models, and comparisons are made with other numerical techniques considered in the literature. The new ADI method is based on an extrapolated Crank-Nicolson OSC method and is algebraically linear. It is efficient, requiring at each time level only O(N) operations where N is the number of unknowns. Moreover, it is shown to produce approximations which are of optimal global accuracy in various norms, and to possess superconvergence properties.
ISSN:0021-9991
1090-2716
DOI:10.1016/j.jcp.2012.04.001