Nonlinear Dynamics and Entropy of Complex Systems with Hidden and Self-excited Attractors

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Autore:	Kengne Jacques
Titolo:	Nonlinear Dynamics and Entropy of Complex Systems with Hidden and Self-excited Attractors
Pubblicazione:	MDPI - Multidisciplinary Digital Publishing Institute, 2019
Descrizione fisica:	1 electronic resource (290 p.)
Soggetto non controllato:	S-Box algorithm
	empirical mode decomposition
	service game
	existence
	hyperchaotic system
	static memory
	complex-variable chaotic system
	neural network
	fractional-order
	permutation entropy
	adaptive approximator-based control
	BOPS
	Bogdanov Map
	complex systems
	Thurston’s algorithm
	parameter estimation
	fractional discrete chaos
	full state hybrid projective synchronization
	self-excited attractor
	stability
	PRNG
	inverse full state hybrid projective synchronization
	entropy measure
	chaos
	chaotic flow
	multistable
	core entropy
	multiscale multivariate entropy
	multistability
	new chaotic system
	strange attractors
	chaotic systems
	spatial dynamics
	spectral entropy
	resonator
	stochastic (strong) entropy solution
	multichannel supply chain
	Hubbard tree
	approximate entropy
	circuit design
	coexistence
	sample entropy
	chaotic maps
	chaotic map
	Gaussian mixture model
	entropy
	laser
	Non-equilibrium four-dimensional chaotic system
	multiple attractors
	projective synchronization
	hidden attractors
	hidden attractor
	chaotic system
	entropy analysis
	self-excited attractors
	multiple-valued
	self-reproducing system
	implementation
	unknown complex parameters
	optimization methods
	image encryption
	generalized synchronization
	uncertain dynamics
	fractional order
	nonlinear transport equation
	external rays
	Lyapunov exponents
	inverse generalized synchronization
	fixed point
	uniqueness
	electronic circuit realization
	synchronization
	Hopf bifurcation
Persona (resp. second.):	Munoz-PachecoJesus M
	RajagopalKarthikeyan
	JafariSajad
	VolosChristos
Sommario/riassunto:	In recent years, entropy has been used as a measure of the degree of chaos in dynamical systems. Thus, it is important to study entropy in nonlinear systems. Moreover, there has been increasing interest in the last few years regarding the novel classification of nonlinear dynamical systems including two kinds of attractors: self-excited attractors and hidden attractors. The localization of self-excited attractors by applying a standard computational procedure is straightforward. In systems with hidden attractors, however, a specific computational procedure must be developed, since equilibrium points do not help in the localization of hidden attractors. Some examples of this kind of system are chaotic dynamical systems with no equilibrium points; with only stable equilibria, curves of equilibria, and surfaces of equilibria; and with non-hyperbolic equilibria. There is evidence that hidden attractors play a vital role in various fields ranging from phase-locked loops, oscillators, describing convective fluid motion, drilling systems, information theory, cryptography, and multilevel DC/DC converters. This Special Issue is a collection of the latest scientific trends on the advanced topics of dynamics, entropy, fractional order calculus, and applications in complex systems with self-excited attractors and hidden attractors.
Titolo autorizzato:	Nonlinear Dynamics and Entropy of Complex Systems with Hidden and Self-excited Attractors
ISBN:	3-03897-899-X
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910346839603321
Lo trovi qui:	Univ. Federico II
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