Characterization of mobile network services to assess the impact of network slicing in a nationwide scenario

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dc.contributor.advisor Banchs Roca, Albert
dc.contributor.advisor Gramaglia, Marco
dc.contributor.author Márquez Colas, María Cristina
dc.date.accessioned 2021-04-07T17:41:28Z
dc.date.available 2021-04-07T17:41:28Z
dc.date.issued 2020-11-27
dc.date.submitted 2020-11-27
dc.identifier.uri http://hdl.handle.net/10016/32301
dc.description Mención Internacional en el título de doctor
dc.description.abstract Several business are nowadays becoming more and more aware of the potential that lies beneath Big Data. From social media ‘titans’ and healthcare companies, to the mobile industry that propelled them, 5th Generation mobile network (5G) will be a fundamental factor that will drive our new reality. Current mobile service usage has been explored for data-driven organizational growth in the touristic sector, as it allows forecasting hotel occupancy rates or targeting customersHowever, mobile data is continuously increasing, and therefore it is enormously important to analyze such data for networking purposes. Previous Ericsson Mobility Reports claimed that by the end of 2022 the total monthly traffic associated with mobile devices would be 77 exabytes (EB), representing 20% of the total Internet Protocol (IP) traffic around the world. They also declare that 50 EB/month would come from 2nd Generation mobile network (2G), 3rd Generation mobile network (3G), and 4th Generation mobile network (4G) devices. In terms of 5G subscriptions, it is expected to reach up to 2.8 billion subscriptions globally by the end of 2025, accounting for about 30% of total mobile subscriptions. Experts stake out that by the year 2020, 1.7 megabytes of data will be generated every second for every person on the planet, forcing the network to evolve and adapt to challenging new demands. Network providers not only deal with the deployment of the required resources to support this growth, but also the potential newcomers into the business, and the stringent conditions of the distinct services to be provided. One of the features proposed to face this dilemma is using the network slicing technique. It allows to transform and orchestrate a 5G network by creating multiple logical instances (i.e., slices) on top of it, while Big Data would provide the specifications of the services’ traffic dynamics to be served. In this way, operators achieve the best allocation of resources. This thesis contributes to the ongoing Network Slicing research, assessing a nationwide scenario. Our results show mobile traffic similarities and differences across time, space, and frequency domains, whereas we intend for distinct service clusterizations that would enhance the network efficiency in terms of resource management. For instance, we show that benefits are achieved when considering the top 10 consuming Network Slice (NS). In addition, we could observe mobile service similarities in the spatial domain, while the spectral and time domains open the door for wavelets uncertainty, where we point future directions to address this research branch. Moreover, we propose two data-driven algorithms that shed light on the trade-off between complexity and multiplexing efficiency derived from the network slice specifications, both exhibiting promising performances (e.g., leading to a new architecture for traffic balancing in the cloud and edge clusters, with 60% and 400% gain in efficiency respectively and 1/3 of dedicated resources).
dc.language.iso eng
dc.rights Atribución-NoComercial-SinDerivadas 3.0 España
dc.rights.uri http://creativecommons.org/licenses/by-nc-nd/3.0/es/
dc.subject.other Big data
dc.subject.other Network slicing
dc.subject.other Resource management
dc.subject.other Network efficiency
dc.subject.other Mobile networks
dc.subject.other Slice orchestration
dc.subject.other NFV
dc.subject.other Network function virtualization
dc.title Characterization of mobile network services to assess the impact of network slicing in a nationwide scenario
dc.type doctoralThesis
dc.subject.eciencia Telecomunicaciones
dc.rights.accessRights openAccess
dc.description.degree Programa de Doctorado en Ingeniería Telemática por la Universidad Carlos III de Madrid
dc.description.responsability Presidente: Antonio de la Oliva Delgado.- Secretario: Andrés García Saavedra.- Vocal: Andra Elena Lutu
dc.contributor.departamento Universidad Carlos III de Madrid. Departamento de Ingeniería Telemática
dc.contributor.tutor Banchs Roca, Albert
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