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Energy flow theory of nonlinear dynamical systems with applications

This monograph develops a generalised energy flow theory to investigate non-linear dynamical systems governed by ordinary differential equations in phase space and often met in various science and engineering fields. Important nonlinear phenomena such as, stabilities, periodical orbits, bifurcations...

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Detalles Bibliográficos
Autor principal: Xing, Jing Tang
Lenguaje:eng
Publicado: Springer 2015
Materias:
Acceso en línea:https://dx.doi.org/10.1007/978-3-319-17741-0
http://cds.cern.ch/record/2020992
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author Xing, Jing Tang
author_facet Xing, Jing Tang
author_sort Xing, Jing Tang
collection CERN
description This monograph develops a generalised energy flow theory to investigate non-linear dynamical systems governed by ordinary differential equations in phase space and often met in various science and engineering fields. Important nonlinear phenomena such as, stabilities, periodical orbits, bifurcations and chaos are tack-led and the corresponding energy flow behaviors are revealed using the proposed energy flow approach. As examples, the common interested nonlinear dynamical systems, such as, Duffing’s oscillator, Van der Pol’s equation, Lorenz attractor, Rössler one and SD oscillator, etc, are discussed. This monograph lights a new energy flow research direction for nonlinear dynamics. A generalised Matlab code with User Manuel is provided for readers to conduct the energy flow analysis of their nonlinear dynamical systems. Throughout the monograph the author continuously returns to some examples in each chapter to illustrate the applications of the discussed theory and approaches. The book can be used as an undergraduate or graduate textbook or a comprehensive source for scientists, researchers and engineers, providing the statement of the art on energy flow or power flow theory and methods.
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institution Organización Europea para la Investigación Nuclear
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spelling cern-20209922021-04-21T20:16:50Zdoi:10.1007/978-3-319-17741-0http://cds.cern.ch/record/2020992engXing, Jing TangEnergy flow theory of nonlinear dynamical systems with applicationsEngineeringThis monograph develops a generalised energy flow theory to investigate non-linear dynamical systems governed by ordinary differential equations in phase space and often met in various science and engineering fields. Important nonlinear phenomena such as, stabilities, periodical orbits, bifurcations and chaos are tack-led and the corresponding energy flow behaviors are revealed using the proposed energy flow approach. As examples, the common interested nonlinear dynamical systems, such as, Duffing’s oscillator, Van der Pol’s equation, Lorenz attractor, Rössler one and SD oscillator, etc, are discussed. This monograph lights a new energy flow research direction for nonlinear dynamics. A generalised Matlab code with User Manuel is provided for readers to conduct the energy flow analysis of their nonlinear dynamical systems. Throughout the monograph the author continuously returns to some examples in each chapter to illustrate the applications of the discussed theory and approaches. The book can be used as an undergraduate or graduate textbook or a comprehensive source for scientists, researchers and engineers, providing the statement of the art on energy flow or power flow theory and methods.Springeroai:cds.cern.ch:20209922015
spellingShingle Engineering
Xing, Jing Tang
Energy flow theory of nonlinear dynamical systems with applications
title Energy flow theory of nonlinear dynamical systems with applications
title_full Energy flow theory of nonlinear dynamical systems with applications
title_fullStr Energy flow theory of nonlinear dynamical systems with applications
title_full_unstemmed Energy flow theory of nonlinear dynamical systems with applications
title_short Energy flow theory of nonlinear dynamical systems with applications
title_sort energy flow theory of nonlinear dynamical systems with applications
topic Engineering
url https://dx.doi.org/10.1007/978-3-319-17741-0
http://cds.cern.ch/record/2020992
work_keys_str_mv AT xingjingtang energyflowtheoryofnonlineardynamicalsystemswithapplications