Bibliographic citations
This is an automatically generated citacion. Modify it if you see fit
Villavicencio, H., (2018). Un indicador de complejidad en sistemas dinámicos [Tesis, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/19046
Villavicencio, H., Un indicador de complejidad en sistemas dinámicos [Tesis]. PE: Universidad Nacional de Ingeniería; 2018. http://hdl.handle.net/20.500.14076/19046
@phdthesis{renati/710662,
title = "Un indicador de complejidad en sistemas dinámicos",
author = "Villavicencio Fernández, Helmuth",
publisher = "Universidad Nacional de Ingeniería",
year = "2018"
}
Title: Un indicador de complejidad en sistemas dinámicos
Authors(s): Villavicencio Fernández, Helmuth
Advisor(s): Metzger Alván, Roger Javier
Keywords: Sistemas dinámicos; Matemática aplicada; Sistemas continuos
OCDE field: http://purl.org/pe-repo/ocde/ford#1.01.01
Issue Date: 2018
Institution: Universidad Nacional de Ingeniería
Abstract: Inicialmente, consideramos la noción de medida F-expansiva para flujos (donde F es un subconjunto del conjunto de reparametrizaciones H) generalizando la definida por Carrasco y Morales en [17]. A su vez, analizamos el comportamiento topológico del conjunto de medidas F-expansivas obteniendo condiciones suficientes para que este sea un conjunto Gδσ. Seguidamente, introducimos el concepto de punto F-sombreable para flujos y probamos que esta noción satisface propiedades que extienden las dadas en [30]. Además, mejoramos la clasificación topológica del conjunto de puntos sombreables, dada por Kawaguchi en [20], al probar que este es un sub-conjunto Gδ. También, probamos que el atractor geométrico de Lorenz, cuyo mapeo de retorno f satisfaga f(0) ≠ 0 ó f(1) ≠ 1, no admite puntos F-sombreables.
Finalmente, definimos la noción de complejidad para flujos que actuará como un indicador de complejidad más fino que la entropía topológica, siempre que existan medidas positivamente F-expansivas (extendiendo los resultados de [29]). Este indicador depende tan solo del tiempo-uno del flujo, es invariante por conjugaciones y suspensiones. Adicionalmente, obtenemos un estimado de las ´orbitas periódicas de un sistema expansivo cuyos puntos F-sombreables contienen al conjunto no errante y admite complejidad.
Initially, we consider the notion of F-expansive measure for flows (where F is a subset of the set of reparametrizations H) generalizing the one defined by Carrasco and Morales in [17]. In addition, we analyze the topological behavior of the set of F-expansive measures obtaining sufficient conditions for these to be a Gδσ set. Next, we introduce the concept of F-shadowable point for flows and we prove that this notion satisfies properties that extend those given in [30]. Moreover, we improved the topological classification of the set of shadowable points, given by Kawaguchi in [20], by proving that this one is a Gδ set. Also, we proved that the geometric Lorenz attractor, whose return mapping f satisfies f(0) ≠ 0 o f(1) ≠ 1, does not have F-shadowable points. Finally, we define the notion of dynamical complexity for flows that will act as an indicator of complexity rather than the topological entropy whenever there are positive measures F-expansive (extending the result of [29]). This indicator depends only on the time-one of the flow, it is invariant by conjugations and suspensions. In addition, we obtain an estimate of the periodic orbits of an expansive system whose F-shadowable points contain the non-wandering set and admit complexity.
Initially, we consider the notion of F-expansive measure for flows (where F is a subset of the set of reparametrizations H) generalizing the one defined by Carrasco and Morales in [17]. In addition, we analyze the topological behavior of the set of F-expansive measures obtaining sufficient conditions for these to be a Gδσ set. Next, we introduce the concept of F-shadowable point for flows and we prove that this notion satisfies properties that extend those given in [30]. Moreover, we improved the topological classification of the set of shadowable points, given by Kawaguchi in [20], by proving that this one is a Gδ set. Also, we proved that the geometric Lorenz attractor, whose return mapping f satisfies f(0) ≠ 0 o f(1) ≠ 1, does not have F-shadowable points. Finally, we define the notion of dynamical complexity for flows that will act as an indicator of complexity rather than the topological entropy whenever there are positive measures F-expansive (extending the result of [29]). This indicator depends only on the time-one of the flow, it is invariant by conjugations and suspensions. In addition, we obtain an estimate of the periodic orbits of an expansive system whose F-shadowable points contain the non-wandering set and admit complexity.
Link to repository: http://hdl.handle.net/20.500.14076/19046
Discipline: Doctorado en Ciencias con Mención en Matemática
Grade or title grantor: Universidad Nacional de Ingeniería. Facultad de Ciencias. Unidad de Posgrado
Grade or title: Doctor en Ciencias con Mención en Matemática
Juror: Pereyra Ravinez, Orlando Luis; Comina Bellido, Germán Yuri; Velásquez Castañón, Oswaldo José; Rosas Bazán, Rudy José
Register date: 21-Jul-2020
This item is licensed under a Creative Commons License