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A linearly implicit predictor-corrector method for reaction-diffusion equations

✍ Scribed by D.A. Voss; A.Q.M. Khaliq

Publisher
Elsevier Science
Year
1999
Tongue
English
Weight
502 KB
Volume
38
Category
Article
ISSN
0898-1221

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✦ Synopsis

A novel linearly implicit predictor-corrector scheme is developed for the numerical solution of reaction-diffusion equations. Iterative processes are avoided by treating the nonlinear reaction terms explicitly, while maintaining superior accuracy and stability properties compared to the well-known ~ methods and linearly implicit l:tunge-Kutta methods. The proposed method allows the opportunity of solving large systems of reaction-diffusion equations by alleviating the necessity of solving the accompanying large linear systems of algebraic equations due to the natural parallelism which surfaces across the system. Numerical results confirm the enhanced stability, accuracy and efficiency of the method when applied to reaction-diffusion equations arising in biochemistry and population ecology.

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A higher-order predictor–corrector schem
A higher-order predictor–corrector scheme for two-dimensional advection–diffusion equation
✍ Chuanjian Man; Christina W. Tsai 📂 Article 📅 2008 🏛 John Wiley and Sons 🌐 English ⚖ 367 KB

## Abstract A higher‐order accurate numerical scheme is developed to solve the two‐dimensional advection–diffusion equation in a staggered‐grid system. The first‐order spatial derivatives are approximated by the fourth‐order accurate finite‐difference scheme, thus all truncation errors are kept to