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Fractional Calculus and the Future of Science



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Autore: West Bruce J Visualizza persona
Titolo: Fractional Calculus and the Future of Science Visualizza cluster
Pubblicazione: Basel, : MDPI - Multidisciplinary Digital Publishing Institute, 2022
Descrizione fisica: 1 electronic resource (312 p.)
Soggetto topico: Research & information: general
Mathematics & science
Soggetto non controllato: fractional diffusion
continuous time random walks
reaction-diffusion equations
reaction kinetics
multidimensional scaling
fractals
fractional calculus
financial indices
entropy
Dow Jones
complex systems
Skellam process
subordination
Lévy measure
Poisson process of order k
running average
complexity
chaos
logistic differential equation
liouville-caputo fractional derivative
local discontinuous Galerkin methods
stability estimate
Mittag-Leffler functions
Wright functions
fractional relaxation
diffusion-wave equation
Laplace and Fourier transform
fractional Poisson process complex systems
distributed-order operators
viscoelasticity
transport processes
control theory
fractional order PID control
PMSM
frequency-domain control design
optimal tuning
Gaussian watermarks
statistical assessment
false positive rate
semi-fragile watermarking system
fractional dynamics
fractional-order thinking
heavytailedness
big data
machine learning
variability
diversity
telegrapher's equations
fractional telegrapher's equation
continuous time random walk
transport problems
fractional conservations laws
variable fractional model
turbulent flows
fractional PINN
physics-informed learning
Persona (resp. second.): WestBruce J
Sommario/riassunto: Newton foresaw the limitations of geometry’s description of planetary behavior and developed fluxions (differentials) as the new language for celestial mechanics and as the way to implement his laws of mechanics. Two hundred years later Mandelbrot introduced the notion of fractals into the scientific lexicon of geometry, dynamics, and statistics and in so doing suggested ways to see beyond the limitations of Newton’s laws. Mandelbrot’s mathematical essays suggest how fractals may lead to the understanding of turbulence, viscoelasticity, and ultimately to end of dominance of the Newton’s macroscopic world view.Fractional Calculus and the Future of Science examines the nexus of these two game-changing contributions to our scientific understanding of the world. It addresses how non-integer differential equations replace Newton’s laws to describe the many guises of complexity, most of which lay beyond Newton’s experience, and many had even eluded Mandelbrot’s powerful intuition. The book’s authors look behind the mathematics and examine what must be true about a phenomenon’s behavior to justify the replacement of an integer-order with a noninteger-order (fractional) derivative. This window into the future of specific science disciplines using the fractional calculus lens suggests how what is seen entails a difference in scientific thinking and understanding.
Titolo autorizzato: Fractional Calculus and the Future of Science  Visualizza cluster
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910566468103321
Lo trovi qui: Univ. Federico II
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