Control Strategies for Energy Efficiency of Next-generation Cellular Networks with Hybrid Energy Sources

Large-scale systems are characterised by having a large number of components working in coordination. These systems can be composed of geographically distributed elements with resource limitations. In this way, control strategies for large-scale systems have challenges related to information flow, p...

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Autores:: Fletscher Bocanegra, Luis Alejandro

Tipo de recurso:: Doctoral thesis

Fecha de publicación:: 2018

Institución:: Universidad Nacional de Colombia

Repositorio:: Universidad Nacional de Colombia

Idioma:: spa

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dc.title.spa.fl_str_mv	Control Strategies for Energy Efficiency of Next-generation Cellular Networks with Hybrid Energy Sources
title	Control Strategies for Energy Efficiency of Next-generation Cellular Networks with Hybrid Energy Sources
spellingShingle	Control Strategies for Energy Efficiency of Next-generation Cellular Networks with Hybrid Energy Sources 62 Ingeniería y operaciones afines / Engineering Eficiencia energética Energías renovables Control óptimo Fuentes híbridas de potencia Sistemas de gran escala HetNets Energy efficiency Renewable energies Optimal control Hybrid power sources Large-scale systems
title_short	Control Strategies for Energy Efficiency of Next-generation Cellular Networks with Hybrid Energy Sources
title_full	Control Strategies for Energy Efficiency of Next-generation Cellular Networks with Hybrid Energy Sources
title_fullStr	Control Strategies for Energy Efficiency of Next-generation Cellular Networks with Hybrid Energy Sources
title_full_unstemmed	Control Strategies for Energy Efficiency of Next-generation Cellular Networks with Hybrid Energy Sources
title_sort	Control Strategies for Energy Efficiency of Next-generation Cellular Networks with Hybrid Energy Sources
dc.creator.fl_str_mv	Fletscher Bocanegra, Luis Alejandro
dc.contributor.author.spa.fl_str_mv	Fletscher Bocanegra, Luis Alejandro
dc.contributor.spa.fl_str_mv	Valencia Peroni, Catalina Maestre Torreblanca, José María
dc.subject.ddc.spa.fl_str_mv	62 Ingeniería y operaciones afines / Engineering
topic	62 Ingeniería y operaciones afines / Engineering Eficiencia energética Energías renovables Control óptimo Fuentes híbridas de potencia Sistemas de gran escala HetNets Energy efficiency Renewable energies Optimal control Hybrid power sources Large-scale systems
dc.subject.proposal.spa.fl_str_mv	Eficiencia energética Energías renovables Control óptimo Fuentes híbridas de potencia Sistemas de gran escala HetNets Energy efficiency Renewable energies Optimal control Hybrid power sources Large-scale systems
description	Large-scale systems are characterised by having a large number of components working in coordination. These systems can be composed of geographically distributed elements with resource limitations. In this way, control strategies for large-scale systems have challenges related to information flow, processing time and capacity, controller design, and energyresource optimisation. One particular large-scale system is the next-generation mobile communications cellular network, which will comprise hundreds of base stations interacting with thousands of users in milliseconds. One of the main challenges with next-generation cellular networks (NGCNs) is the higher energy consumption caused by the expected number of connected devices. Here, renewable energies are a good option to face the growing demand of energy consumption. However, there are still major challenges related to the appropriate control schemes to minimise ongrid consumption and optimise energy management in cellular networks with hybrid energy sources (grid and renewable energy). In this thesis, different control strategies for large-scale networks are proposed. These control strategies are assessed over an NGCN powered by hybrid energy sources to reduce grid consumption. The energy-efficiency problem is studied from the viewpoint of the energetic processes – i.e., on-place renewable energy is available, and mechanisms to reduce the gridenergy consumption should be developed. The proposed mechanisms are based on previous research that shows the relationship between the number of users connected to a cellular network base station (BS) and its energy consumption. For this reason, the study of optimal control mechanisms that balance the load of users over the available BSs according to the renewable energy available is a key element in the field of energy efficiency in cellular networks. These schemes are assessed through simulations and then compared with the scheme actually used to manage the user–BS association in cellular networks. The results show that the proposed control schemes improve grid-electricity consumption compared with the traditional association mechanism while still maintaining adequate quality-of-service (QoS) levels. The control schemes for the energy-efficiency problem were studied in two timescales. The short timescale (of the order of seconds) was used to analyse the user–BS association problem in a network configuration with hybrid power sources without an energy storage system. The long timescale (of the order of hours) was used to study load balancing of aggregated traffic in each BS with hybrid power sources and an energy storage system. Finally, the proposed controllers are of different types: (i) centralised, (ii) distributed at the base-station level, and (iii) distributed at the user level
publishDate	2018
dc.date.issued.spa.fl_str_mv	2018-05-31
dc.date.accessioned.spa.fl_str_mv	2019-07-02T21:53:09Z
dc.date.available.spa.fl_str_mv	2019-07-02T21:53:09Z
dc.type.spa.fl_str_mv	Trabajo de grado - Doctorado
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dc.identifier.eprints.spa.fl_str_mv	http://bdigital.unal.edu.co/63987/
url	https://repositorio.unal.edu.co/handle/unal/63546 http://bdigital.unal.edu.co/63987/
dc.language.iso.spa.fl_str_mv	spa
language	spa
dc.relation.ispartof.spa.fl_str_mv	Universidad Nacional de Colombia Sede Medellín Facultad de Minas Escuela de Procesos y Energía Escuela de Procesos y Energía
dc.relation.references.spa.fl_str_mv	Fletscher Bocanegra, Luis Alejandro (2018) Control Strategies for Energy Efficiency of Next-generation Cellular Networks with Hybrid Energy Sources. Doctorado thesis, Universidad Nacional de Colombia - Sede Medellín.
dc.rights.spa.fl_str_mv	Derechos reservados - Universidad Nacional de Colombia
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dc.rights.license.spa.fl_str_mv	Atribución-NoComercial 4.0 Internacional
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dc.rights.accessrights.spa.fl_str_mv	info:eu-repo/semantics/openAccess
rights_invalid_str_mv	Atribución-NoComercial 4.0 Internacional Derechos reservados - Universidad Nacional de Colombia http://creativecommons.org/licenses/by-nc/4.0/ http://purl.org/coar/access_right/c_abf2
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institution	Universidad Nacional de Colombia
bitstream.url.fl_str_mv	https://repositorio.unal.edu.co/bitstream/unal/63546/1/93408901.2018.pdf https://repositorio.unal.edu.co/bitstream/unal/63546/2/93408901.2018.pdf.jpg
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spelling	Atribución-NoComercial 4.0 InternacionalDerechos reservados - Universidad Nacional de Colombiahttp://creativecommons.org/licenses/by-nc/4.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2Valencia Peroni, CatalinaMaestre Torreblanca, José MaríaFletscher Bocanegra, Luis Alejandro26d25e13-0b50-4111-b30a-8120d4aa392e3002019-07-02T21:53:09Z2019-07-02T21:53:09Z2018-05-31https://repositorio.unal.edu.co/handle/unal/63546http://bdigital.unal.edu.co/63987/Large-scale systems are characterised by having a large number of components working in coordination. These systems can be composed of geographically distributed elements with resource limitations. In this way, control strategies for large-scale systems have challenges related to information flow, processing time and capacity, controller design, and energyresource optimisation. One particular large-scale system is the next-generation mobile communications cellular network, which will comprise hundreds of base stations interacting with thousands of users in milliseconds. One of the main challenges with next-generation cellular networks (NGCNs) is the higher energy consumption caused by the expected number of connected devices. Here, renewable energies are a good option to face the growing demand of energy consumption. However, there are still major challenges related to the appropriate control schemes to minimise ongrid consumption and optimise energy management in cellular networks with hybrid energy sources (grid and renewable energy). In this thesis, different control strategies for large-scale networks are proposed. These control strategies are assessed over an NGCN powered by hybrid energy sources to reduce grid consumption. The energy-efficiency problem is studied from the viewpoint of the energetic processes – i.e., on-place renewable energy is available, and mechanisms to reduce the gridenergy consumption should be developed. The proposed mechanisms are based on previous research that shows the relationship between the number of users connected to a cellular network base station (BS) and its energy consumption. For this reason, the study of optimal control mechanisms that balance the load of users over the available BSs according to the renewable energy available is a key element in the field of energy efficiency in cellular networks. These schemes are assessed through simulations and then compared with the scheme actually used to manage the user–BS association in cellular networks. The results show that the proposed control schemes improve grid-electricity consumption compared with the traditional association mechanism while still maintaining adequate quality-of-service (QoS) levels. The control schemes for the energy-efficiency problem were studied in two timescales. The short timescale (of the order of seconds) was used to analyse the user–BS association problem in a network configuration with hybrid power sources without an energy storage system. The long timescale (of the order of hours) was used to study load balancing of aggregated traffic in each BS with hybrid power sources and an energy storage system. Finally, the proposed controllers are of different types: (i) centralised, (ii) distributed at the base-station level, and (iii) distributed at the user levelResumen: Los sistemas de gran escala se caracterizan por tener un gran n´umero de componentes trabajando de forma coordinada. Estos sistemas est´an conformados por elementos que pueden estar distribuidos a lo largo de una extensa ´area geogr´afica y poseer restricciones en cuanto a la disponibilidad de recursos necesarios para su funcionamiento. Teniendo en cuenta estas caracter´ısticas, las estrategias de control para sistemas de gran escala presentan retos relacionados con el flujo de la informaci´on, la capacidad y tiempo de procesamiento, el dise˜no de los controladores y la optimizaci´on de los recursos disponibles. Un tipo particular de sistema de gran escala son las redes de comunicaci´on m´ovil celular de pr´oxima generaci´on, que se encontrar´an conformadas por cientos de estaciones base que interactuar´an con miles de usuarios en instantes de tiempo del orden de los milisegundos. Uno de los principales desaf´ıos en las redes celulares de pr´oxima generaci´on (RCPG) es el incremento en el consumo energ´etico causado por el crecimiento esperado de dispositivos conectados. En este contexto, las energ´ıas renovables son una buena alternativa para afrontar la creciente demanda de consumo energ´etico. Sin embargo, existen importantes desaf´ıos relacionados con los esquemas de control adecuados para minimizar el consumo de energ´ıa proveniente de la red el´ectrica convencional (grid) y optimizar la gesti´on energ´etica en redes celulares con fuentes de alimentaci´on h´ıbrida (grid y renovable). En esta tesis, se proponen y eval´uan diferentes estrategias de control para redes de gran escala, utilizando como caso de estudio las RCPG alimentadas con fuentes h´ıbridas y su objetivo de reducir el consumo grid. El problema de la eficiencia energ´etica es estudiado desde el punto de vista de los procesos energ´eticos, es decir, de la disponibilidad de energ´ıa renovable en el emplazamiento del sistema y los mecanismos para reducir el consumo energ´etico. Los mecanismos propuestos se basan en investigaciones previas que demostraron la relaci´on existente entre el n´umero de usuarios conectados a las estaciones base (EB) de la red y su consumo energ´etico. Por esta raz´on, el estudio de mecanismos de control ´optimo que balanceen la carga de tr´afico sobre las EB de acuerdo con la energ´ıa renovable disponible es un elemento clave en el campo de la eficiencia energ´etica en redes celulares. Estos esquemas son evaluados a trav´es de simulaciones y comparados con el mecanismo usado actualmente por las redes celulares para gestionar la asociaci´on de los usuarios a las EB. Los resultados de la tesis muestran que los esquemas de control propuestos mejoran el consumo grid comparado con el mecanismo de asociaci´on tradicional a la vez que mantienen adecuados niveles de calidad del servicio. Los esquemas de control para el problema de la eficiencia energ´etica fueron estudiados en dos escalas de tiempo. La corta escala de tiempo (del orden de los segundos) fue usada para analizar el problema de la asociaci´on de los usuarios a las EB en una configuraci´on de red con fuentes de potencia h´ıbridas y sin sistema de almacenamiento energ´etico. La larga escala de tiempo (del orden de horas) fue utilizada para estudiar el balanceo de carga de tr´afico agregado en cada EB, con fuentes h´ıbridas de potencia y con sistema de almacenamiento energ´etico. Finalmente, los controladores desarrollados son de diferentes tipos: i) esquema centralizado, ii) esquemas distribuidos a nivel de usuario y iii) esquemas distribuidos a nivel de estaciones base.Doctoradoapplication/pdfspaUniversidad Nacional de Colombia Sede Medellín Facultad de Minas Escuela de Procesos y EnergíaEscuela de Procesos y EnergíaFletscher Bocanegra, Luis Alejandro (2018) Control Strategies for Energy Efficiency of Next-generation Cellular Networks with Hybrid Energy Sources. Doctorado thesis, Universidad Nacional de Colombia - Sede Medellín.62 Ingeniería y operaciones afines / EngineeringEficiencia energéticaEnergías renovablesControl óptimoFuentes híbridas de potenciaSistemas de gran escalaHetNetsEnergy efficiencyRenewable energiesOptimal controlHybrid power sourcesLarge-scale systemsControl Strategies for Energy Efficiency of Next-generation Cellular Networks with Hybrid Energy SourcesTrabajo de grado - Doctoradoinfo:eu-repo/semantics/doctoralThesisinfo:eu-repo/semantics/acceptedVersionhttp://purl.org/coar/resource_type/c_db06Texthttp://purl.org/redcol/resource_type/TDORIGINAL93408901.2018.pdfTesis de Doctorado en Ingeniería - Sistemas Energéticosapplication/pdf2566462https://repositorio.unal.edu.co/bitstream/unal/63546/1/93408901.2018.pdf4023b24007dabd6a2dcf35f1583da80cMD51THUMBNAIL93408901.2018.pdf.jpg93408901.2018.pdf.jpgGenerated Thumbnailimage/jpeg4517https://repositorio.unal.edu.co/bitstream/unal/63546/2/93408901.2018.pdf.jpgff2b599abfb28f2380cb0df65f29c31cMD52unal/63546oai:repositorio.unal.edu.co:unal/635462024-04-29 23:11:10.546Repositorio Institucional Universidad Nacional de Colombiarepositorio_nal@unal.edu.co

Control Strategies for Energy Efficiency of Next-generation Cellular Networks with Hybrid Energy Sources

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