01413nam0-2200349-#-450-99000107133020331620020419132310.0000107133USA01000107133(ALEPH)000107133USA0100010713320020419d1867----km-y0enga50------baitaITy|||z|||001yyHistoria della bella reina d'orientepoema romanzesco di Antonio Pucci Fiorentino poeta del secolo di Dantenovellamente ristampato ed a miglior lezione ricondotto sopra un testo a penna MarucellianoIn Bolognapresso l'editore1867VII, 62 p.20 cmNell'occh.: Delizie delli eruditi bibliofili italiani da mss. dissepolte o da irreperibili stampe con nuove impressioni a novella vita richiamate per cura del dottor Antonio Bonucci della regia commissione per la pubblicazione de' testi di linguaN. 155 di una ed. di 200 es.PUCCI,Antonio174026ITSalbcISBD990001071330203316FV A 106L.M.FV ABKVENTIMIGLIACHIARA9020020419USA011309CHIARA9020020419USA011312CHIARA9020020419USA011323PATRY9020040406USA011714Historia della bella Reina d'Oriente308394UNISA04596nam 22011053a 450 991036775200332120250203235429.09783039216178303921617110.3390/books978-3-03921-617-8(CKB)4100000010106197(oapen)https://directory.doabooks.org/handle/20.500.12854/46557(ScCtBLL)a4ce77e1-3756-4663-869f-2ec8f51bb841(OCoLC)1163856599(oapen)doab46557(EXLCZ)99410000001010619720250203i20192019 uu engurmn|---annantxtrdacontentcrdamediacrrdacarrierEntropy in Dynamic SystemsJ. A. Tenreiro Machado, Jan AwrejcewiczMDPI - Multidisciplinary Digital Publishing Institute2019Basel, Switzerland :MDPI,2019.1 electronic resource (172 p.)9783039216161 3039216163 In order to measure and quantify the complex behavior of real-world systems, either novel mathematical approaches or modifications of classical ones are required to precisely predict, monitor, and control complicated chaotic and stochastic processes. Though the term of entropy comes from Greek and emphasizes its analogy to energy, today, it has wandered to different branches of pure and applied sciences and is understood in a rather rough way, with emphasis placed on the transition from regular to chaotic states, stochastic and deterministic disorder, and uniform and non-uniform distribution or decay of diversity. This collection of papers addresses the notion of entropy in a very broad sense. The presented manuscripts follow from different branches of mathematical/physical sciences, natural/social sciences, and engineering-oriented sciences with emphasis placed on the complexity of dynamical systems. Topics like timing chaos and spatiotemporal chaos, bifurcation, synchronization and anti-synchronization, stability, lumped mass and continuous mechanical systems modeling, novel nonlinear phenomena, and resonances are discussed.History of engineering and technologybicsscnonautonomous (autonomous) dynamical systemstabilizationmulti-time scale fractional stochastic differential equationsconditional Tsallis entropywavelet transformhyperchaotic systemChua’s systempermutation entropyneural network methodInformation transferself-synchronous stream ciphercolored noiseBenettin methodmethod of synchronizationtopological entropygeometric nonlinearityKantz methoddynamical systemGaussian white noisephase-locked loopwaveletsRosenstein methodm-dimensional manifolddeterministic chaosdisturbationMittag–Leffler functionapproximate entropybounded chaosAdomian decompositionfractional calculusproduct MV-algebraTsallis entropydescriptor fractional linear systemsanalytical solutionfractional Brownian motiontrue chaosdiscrete mappingpartitionunbounded chaosfractional stochastic partial differential equationnoise induced transitionsrandom number generatorFourier spectrumhidden attractors(asymptotical) focal entropy pointregular pencilscontinuous flowBernoulli–Euler beamimage encryptionGauss waveletsLyapunov exponentsdiscrete fractional calculusLorenz systemSchur factorizationdiscrete chaosWolf methodHistory of engineering and technologyTenreiro Machado J. A1787768Awrejcewicz JanScCtBLLScCtBLLBOOK9910367752003321Entropy in Dynamic Systems4321713UNINA