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Fractional Differential Equations: Numerical Methods for Applications: Studies in Systems, Decision and Control, cartea 258

Autor Matthew Harker
en Limba Engleză Hardback – 25 oct 2024
This book provides a comprehensive set of practical tools for exploring and discovering the world of fractional calculus and its applications, and thereby a means of bridging the theory of fractional differential equations (FDE) with real-world facts. These tools seamlessly blend centuries old numerical methods such as Gaussian quadrature that have stood the test of time with pioneering concepts such as hypermatrix equations to harness the emerging capabilities of modern scientific computing environments. This unique fusion of old and new leads to a unified approach that intuitively parallels the classic theory of differential equations, and results in methods that are unprecedented in computational speed and numerical accuracy.
The opening chapter is an introduction to fractional calculus that is geared towards scientists and engineers. The following chapter introduces the reader to the key concepts of approximation theory with an emphasis on the tools of numerical linear algebra. The third chapter provides the keystone for the remainder of the book with a comprehensive set of methods for the approximation of fractional order integrals and derivatives. The fourth chapter describes the numerical solution of initial and boundary value problems for FDE of a single variable, both linear and nonlinear. Moving to two, three, and four dimensions, the ensuing chapter is devoted to a novel approach to the numerical solution of partial FDE that leverages the little-known one-to-one relation between partial differential equations and matrix and hypermatrix equations. The emphasis on applications culminates in the final chapter by addressing inverse problems for ordinary and partial FDE, such as smoothing for data analytics, and the all-important system identification problem.
Over a century ago, scientists such as Ludwig Boltzmann and Vito Volterra formulated mathematical models of real materials that -- based on physical evidence -- integrated the history of the system. The present book will be invaluable to students and researchers in fields where analogous phenomena arise, such as viscoelasticity, rheology, polymer dynamics, non-Newtonian fluids, bioengineering, electrochemistry, non-conservative mechanics, groundwater hydrology, NMR and computed tomography, mathematical economics, thermomechanics, anomalous diffusion and transport, control theory, supercapacitors, and genetic algorithms, to name but a few. These investigators will be well-equipped with reproducible numerical methods to explore and discover their particular field of application of FDE.
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Specificații

ISBN-13: 9783030323769
ISBN-10: 3030323765
Ilustrații: XVII, 466 p. 57 illus.
Dimensiuni: 155 x 235 mm
Ediția:1st ed. 2024
Editura: Springer International Publishing
Colecția Springer
Seria Studies in Systems, Decision and Control

Locul publicării:Cham, Switzerland

Cuprins

Fractional Calculus and Fractional Differential Equations.- Essentials of Approximation Theory.- Numerical Approximation of Fractional Integrals and Derivatives.- Numerical Solution of Ordinary Fractional Differential Equations.- Numerical Solution of Partial Fractional Differential Equations.- Numerical Methods for Fractional Order Systems.- Reference Material.- Index.

Textul de pe ultima copertă

This book provides a comprehensive set of tools for exploring and discovering the world of fractional calculus and its applications, and in doing so offers a means of bridging the theory of fractional differential equations (FDE) and real-world facts. These tools unify quintessential numerical methods with pioneering concepts such as hypermatrix equations to harness the potential of the modern scientific computing environment.
Following an introduction to FDE aimed at scientists and engineers, the topics covered include the approximation of fractional order integrals and derivatives, the numerical solution of ordinary FDE, partial FDE in two, three, and four dimensions, and inverse problems for FDE, such as the all-important system identification problem.
As such, it equips students and researchers with reproducible methods that are unprecedented in speed and accuracy, which they can use to explore applications of FDE in areas such as viscoelasticity, bioengineering, and electrochemistry, to name but a few.

Caracteristici

Presents novel methods for identifying parameters of fractional differential equations Focuses on high-accuracy methods for fractional differential equations (FDE) and partial fractional differential equations (PFDE) Includes methods based on matrix equations that are several orders of magnitude faster than finite element methods