Numerical Integration of Space Fractional Partial Differential Equations, Volume 2

Numerical Integration of Space Fractional Partial Differential Equations, Volume 2

Applications from Classical Integer PDEs

Younes Salehi, William E. Schiesser
ISBN: 9781681732091 | PDF ISBN: 9781681732107
Hardcover ISBN:9781681732718
Copyright © 2018 | 206 Pages | Publication Date: December, 2017

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Partial differential equations (PDEs) are one of the most used widely forms of mathematics in science and engineering. PDEs can have partial derivatives with respect to (1) an initial value variable, typically time, and (2) boundary value variables, typically spatial variables. Therefore, two fractional PDEs can be considered, (1) fractional in time (TFPDEs), and (2) fractional in space (SFPDEs). The two volumes are directed to the development and use of SFPDEs, with the discussion divided as:

Vol 1: Introduction to Algorithms and Computer Coding in R

Vol 2: Applications from Classical Integer PDEs.

Various definitions of space fractional derivatives have been proposed. We focus on the Caputo derivative, with occasional reference to the Riemann-Liouville derivative.

In the second volume, the emphasis is on applications of SFPDEs developed mainly through the extension of classical integer PDEs to SFPDEs. The example applications are:

* Fractional diffusion equation with Dirichlet, Neumann and Robin boundary conditions
* Fisher-Kolmogorov SFPDE
* Burgers SFPDE
* Fokker-Planck SFPDE
* Burgers-Huxley SFPDE
* Fitzhugh-Nagumo SFPDE

These SFPDEs were selected because they are integer first order in time and integer second order in space. The variation in the spatial derivative from order two (parabolic) to order one (first order hyperbolic) demonstrates the effect of the spatial fractional order α with 1 ≤ α ≤ 2. All of the example SFPDEs are one dimensional in Cartesian coordinates. Extensions to higher dimensions and other coordinate systems, in principle, follow from the examples in this second volume.

The examples start with a statement of the integer PDEs that are then extended to SFPDEs. The format of each chapter is the same as in the first volume.

The R routines can be downloaded and executed on a modest computer (R is readily available from the Internet).


Table of Contents

Simultaneous SFPDEs
Two Sided SFPDEs
Integer to Fractional Extensions
Authors' Biographies

About the Author(s)

Younes Salehi, Razi University
My research focus is applied mathematics broadly. This includes numerical linear algebra, optimization and solving differential equations. My primary research interest concerns the areas of numerical analysis, scientific computing and high performance computing with particular emphasis on the numerical solution of ordinary differential equations (ODEs) and partial differential equations (PDEs). One focus of my work is programming efficient numerical methods for ODEs and PDEs. I have extensive experience in MATLAB, Maple, Mathematica and R programming of transportable numerical method routines, but I am also experienced in programming in C, C++ and C#, and could readily apply these programming systems to numerical ODE/PDEs. Recently, I have become interested in fractional differential equations (FDEs), especially the numerical solution of fractional initial value problems (FIVPs) and space fractional differential equations (SFPDEs).

William E. Schiesser, Lehigh University
William E. Schiesser is Emeritus McCann Professor of Computational Biomedical Engineering and Chemical and Biomolecular Engineering, and Professor of Mathematics at Lehigh University. His research is directed toward numerical methods and associated software for ordinary, differential-algebraic and partial differential equations (ODE/DAE/PDEs). He is the author, coauthor or coeditor of 18 books, and his ODE/DAE/PDE computer routines have been accessed by some 5,000 colleges and universities, corporations and government agencies.

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