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11	從中國第五代領導人的政策觀點分析"一帶一路"計畫 / Analysis of the Belt and Road Initiative from the Perspective of the Chinese Fifth-Generation Leadership 陳汝信, Chen, Ru-Shin Unknown Date (has links) 一帶一路倡議是中國第五代領導人的政策之一，應該被視為整體戰略的一部分。為了評估一帶一路倡議的實際目的與風險，研究中國地緣政治與社會經濟局勢、前幾代中國領導人的政策（如西部大開發）、現任第五代領導人的政策（如中國夢與四個全面）。雖然並非與其它相關的分析相互排斥，結論指出一帶一路與第五代領導人其它政策具有協同效應、同時面對相對的急迫性，是中國第五代領導人經濟改革、輸出國營企業生產能力過剩、減輕資產泡沫破裂風險的工具之一。 / The Belt and Road Initiative is one corner of the Chinese fifth-generation leadership’s policymaking under the Xi Jinping administration, and should be understood as part of a cohesive whole. This study assesses the BRI, its actual goals, and its risks when analyzed alongside China’s geostrategic and socioeconomic positions, similar policies from previous generations of Chinese leadership such as the Western Development Strategy, and existing concurrent policies from the fifth-generation Chinese leadership such as the Chinese Dream and the Four Comprehensives. While not mutually exclusive with other explanations proposed for the BRI, this study suggests that due to its synergy with existing policies and its exceptional urgency, the fifth-generation leadership primarily uses the BRI as one tool amongst many to accommodate its economic reform, to export the production overcapacity of state-owned enterprises, and to mitigate any risks of an asset bubble collapse. 一帶一路中國夢中國第五代領導人 Belt and Road Belt and Road Initiative BRI Chinese dream Chinese Fifth-Generation Leadership
12	Application Server Mobility and 5G Core Network Symeri, Ali January 2019 (has links) With advancements in the mobile network architecture, from the Fourth Generation to the Fifth Generation, a vast number of new use cases becomes available. Many use cases require cloud-based services, where a service is deployed close to the user. For a user to communicate with a service, it connects to the mobile network base station, Fifth Generation Core network and then to the service. When the user changes physical location, the mobile network and the service must apply mobility techniques. This is to prevent tromboned traffic and provide low latency between user and service. When a handover occurs, so that a user’s attachment point to the mobile network is changed from the one base station to another and the User Plane Function changes, the cloud-based service may have to seamlessly move from one cloud to another as well. In this thesis, a Service mobility framework is proposed and implemented, which enables service live migration between edge clouds and it provides simple RESTful APIs. The evaluation of the framework shows that the proposed implementation adds low delays to the total migration time and the service downtime is also shown to be low in the case of video streaming with no service interruption. / Med framsteg i det mobila nätverkets arkitektur, sett från den Fjärde Generationen till den Femte Generationen, så blir nya användningsområden tillgängliga. Bland de nya användningsområdena inkluderas molnbaserade tjänster, där tjänster är placerade nära användare, dessutom har vissa områden behov av dessa molnbaserade tjänster. För att en användare ska kunna kommunicera med en tjänst så måste den först ansluta till det mobila nätverkets basstationer och sedan till Femte Generationens kärnnätverk, för att sedan kunna kommunicera med tjänsten. När användaren förflyttar sig från en plats till en annan, så måste det mobila nätverket och tjänsten tillämpa rörlighetstekniker, som förflyttning av tjänsten. Förflyttningen är för att förhindra trombonerad trafik och att förse låg latens mellan användare och tjänst. När en överlämning sker, d.v.s att en användares kopplingspunkt till det mobila nätverket ändras, från en basstation till en annan, och att User Plane Function ändras, så kan även den molnbaserade tjänsten förflytta sig sömlöst från ett moln till ett annat. I denna avhandling presenteras ett tjänströrlighetsramverk som möjliggör tjänströrlighet mellan moln och erbjuder enkla RESTfulla API:er. Evaluering av ramverket visar att implementationen bidrar med låga fördröjningar till den totala migrations tiden samt att tjänster med videoströmming har lågt driftstopp utan tjänstavbrott. Fifth Generation Core Handover Network Function Edge cloud Service mobility Live migration Femte Generationen Kärna Överlämning Nätverksfunktion Moln Tjänströrlighet Live migration Computer and Information Sciences Data- och informationsvetenskap
13	Communication protocols for mid-range mobile IoT devices : And their applicability to a publicly shared bikes platform Lundh, Oskar January 2017 (has links) Internet of Things, or the infrastructure of the information age society, is an expanding area of research. It is the idea that physical things that we have today, can be turned into devices by being connected to a network. The purpose of these devices is through more sensors and actuators, allow smarter and more robust infrastructure to be built, as well as improving consumer devices interoperability. This thesis will investigate the current state of the art application layer communication protocols that have been developed with resource constrained mobile devices in mind. It will look specifically at high latency mid-range wireless cellular communication by investigating how the protocols affect energy consumption for an embedded Internet of Things device. This is done with the constraint that these findings needs to be applicable to the fifth generation of cellular networks, as well as extensions to current generation standards. The application layer communication protocols Constrained Applications Protocol(CoAP), Message Queue Telemetry Transport(MQTT) and Hypertext Transfer Protocol(HTTP) used on multiple modem modules, are investigated in a quantitative approach in deductive survey experiments, testing a variety of what is concluded to be typical sensor and actuator scenarios. The goal with the survey, is to ultimately select the protocol that shows to be the most suitable for a project to build a prototype platform for embedded mobile devices in the shape of publicly shared bikes in a city. This prototype is described and its architecture and design decisions are presented and argued for. The survey discovers that CoAP is the most suitable protocol for the purpose of the thesis, and proceeds to show how it is applied to the described platform. Internet of Things Fifth Generation Energy Consumption Embed- ded Mobile Device City Bikes CoAP MQTT HTTP ii Computer and Information Sciences Data- och informationsvetenskap
14	Energy Efficient Cloud Computing Based Radio Access Networks in 5G. Design and evaluation of an energy aware 5G cloud radio access networks framework using base station sleeping, cloud computing based workload consolidation and mobile edge computing Sigwele, Tshiamo January 2017 (has links) Fifth Generation (5G) cellular networks will experience a thousand-fold increase in data traffic with over 100 billion connected devices by 2020. In order to support this skyrocketing traffic demand, smaller base stations (BSs) are deployed to increase capacity. However, more BSs increase energy consumption which contributes to operational expenditure (OPEX) and CO2 emissions. Also, an introduction of a plethora of 5G applications running in the mobile devices cause a significant amount of energy consumption in the mobile devices. This thesis presents a novel framework for energy efficiency in 5G cloud radio access networks (C-RAN) by leveraging cloud computing technology. Energy efficiency is achieved in three ways; (i) at the radio side of H-C-RAN (Heterogeneous C-RAN), a dynamic BS switching off algorithm is proposed to minimise energy consumption while maintaining Quality of Service (QoS), (ii) in the BS cloud, baseband workload consolidation schemes are proposed based on simulated annealing and genetic algorithms to minimise energy consumption in the cloud, where also advanced fuzzy based admission control with pre-emption is implemented to improve QoS and resource utilisation (iii) at the mobile device side, Mobile Edge Computing (MEC) is used where computer intensive tasks from the mobile device are executed in the MEC server in the cloud. The simulation results show that the proposed framework effectively reduced energy consumption by up to 48% within RAN and 57% in the mobile devices, and improved network energy efficiency by a factor of 10, network throughput by a factor of 2.7 and resource utilisation by 54% while maintaining QoS. Base station sleeping Cloud computing Cloud radio access networks Energy efficiency Heterogeneous networks Mobile edge computing Virtual machine placement Virtualisation Fifth generation (5G)
15	Unleashing Technological Collaboration: AI, 5G, and Mobile Robotics for Industry 4.0 Advancements Palacios Morocho, Maritza Elizabeth 02 November 2024 (has links) [ES] La Industria 4.0 se enfrenta a importantes retos a la hora de perseguir la transformación digital y la eficiencia operativa. La creciente complejidad de los entornos industriales modernos lleva a la necesidad de desplegar tecnologías digitales y, sobre todo, la automatización de la Industria. Sin embargo, este camino hacia la innovación va acompañado de numerosos obstáculos, ya que el entorno cambia constantemente. Por lo tanto, para adaptarse a esta evolución, es necesario emplear planteamientos más flexibles. Estos planteamientos están estrechamente relacionados con el uso de la AI y RL, ya que surgen como soluciones clave para abordar los retos cruciales de la navegación cooperativa de agentes dentro de entornos dinámicos. Mientras tanto, los algoritmos RL se enfrentan a las complejidades que implica la transmisión y el procesamiento de grandes cantidades de datos, para hacer frente a este desafío, la tecnología 5G emerge como un habilitador clave para las soluciones de escenarios de problemas evolutivos. Entre las principales ventajas de la 5G están que ofrece una transmisión rápida y segura de grandes volúmenes de datos con una latencia mínima. Al ser la única tecnología hasta ahora capaz de ofrecer estas capacidades, 5G se convierte en un componente esencial para desplegar servicios en tiempo real como la navegación cooperativa. Además, otra ventaja es que proporciona la infraestructura necesaria para intercambios de datos robustos y contribuye a la eficiencia del sistema y a la seguridad de los datos en entornos industriales dinámicos. A la vista de lo anterior, es evidente que la complejidad de los entornos industriales conduce a la necesidad de proponer sistemas basados en nuevas tecnologías como las redes AI y 5G, ya que su combinación proporciona una potente sinergia. Además, aparte de abordar los retos identificados en la navegación cooperativa, también abre la puerta a la implementación de fábricas inteligentes, dando lugar a mayores niveles de automatización, seguridad y productividad en las operaciones industriales. Es importante destacar que la aplicación de técnicas de AI conlleva la necesidad de utilizar software de simulación para probar los algoritmos propuestos en entornos virtuales. Esto permite abordar cuestiones esenciales sobre la validez de los algoritmos, reducir los riesgos de daños en el hardware y, sobre todo, optimizar las soluciones propuestas. Con el fin de proporcionar una solución a los retos fundamentales en la automatización de fábricas, esta Tesis se centra en la integración de la robótica móvil en la nube, especialmente en el contexto de la Industria 4.0. También abarca la investigación de las capacidades de las redes 5G, la evaluación de la viabilidad de simuladores como ROS y Gazebo, y la fusión de datos de sensores y el diseño de algoritmos de planificación de trayectorias basados en RL. En otras palabras, esta Tesis no solo identifica y aborda los retos clave de la Industria 4.0, sino que también presenta soluciones innovadoras e hipótesis concretas para la investigación. Además, promueve la combinación de AI y 5G para desplegar servicios en tiempo real, como la navegación cooperativa. Así, aborda retos críticos y demuestra que la colaboración tecnológica redefine la eficiencia y la adaptabilidad en la industria moderna. / [CA] La Indústria 4.0 s'enfronta a importants reptes a l'hora de perseguir la transformació digital i l'eficiència operativa. La creixent complexitat dels entorns industrials moderns porta a la necessitat de desplegar tecnologies digitals i, sobretot, l'automatització de la Indústria. No obstant això, este camí cap a la innovació va acompanyat de nombrosos obstacles, ja que l'entorn canvia constantment. Per tant, per a adaptar-se a esta evolució, és necessari emprar plantejaments més flexibles. Estos plantejaments estan estretament relacionats amb l'ús de l'AI i RL, ja que sorgixen com a solucions clau per a abordar els reptes crucials de la navegació cooperativa d'agents dins d'entorns dinàmics. Mentrestant, els algorismes RL s'enfronten a les complexitats que implica la transmissió i el processament de grans quantitats de dades, per a fer front a este desafiament, la tecnologia 5G emergix com un habilitador clau per a les solucions d'escenaris de problemes evolutius. Entre els principals avantatges de la 5G estan que oferix una transmissió ràpida i segura de grans volums de dades amb una latència mínima. A l'ésser l'única tecnologia fins ara capaç d'oferir estes capacitats, 5G es convertix en un component essencial per a desplegar servicis en temps real com la navegació cooperativa. A més, un altre avantatge és que proporciona la infraestructura necessària per a intercanvis de dades robustes i contribuïx a l'eficiència del sistema i a la seguretat de les dades en entorns industrials dinàmics. A la vista de l'anterior, és evident que la complexitat dels entorns industrials conduïx a la necessitat de proposar sistemes basats en noves tecnologies com les xarxes AI i 5G, ja que la seua combinació proporciona una potent sinergia. A més, a part d'abordar els reptes identificats en la navegació cooperativa, també obri la porta a la implementació de fabriques intel·ligents, donant lloc a majors nivells d'automatització, seguretat i productivitat en les operacions industrials. És important destacar que l'aplicació de tècniques d'AI comporta la necessitat d'utilitzar programari de simulació per a provar els algorismes proposats en entorns virtuals. Això permet abordar qüestions essencials sobre la validesa dels algorismes, reduir els riscos de dona'ns en el maquinari i, sobretot, optimitzar les solucions proposades. Amb la finalitat de proporcionar una solució als reptes fonamentals en l'automatització de fabriques, esta Tesi se centra en la integració de la robòtica mòbil en el núvol, especialment en el context de la Indústria 4.0. També abasta la investigació de les capacitats de les xarxes 5G, l'avaluació de la viabilitat de simuladors com ROS i Gazebo, i la fusió de dades de sensors i el disseny d'algorismes de planificació de trajectòries basats en RL. En altres paraules, esta Tesi no sols identifica i aborda els reptes clau de la Indústria 4.0, sinó que també presenta solucions innovadores i hipòtesis concretes per a la investigació. A més, promou la combinació d'AI i 5G per a desplegar servicis en temps real, com la navegació cooperativa. Així, aborda reptes crítics i demostra que la col·laboració tecnològica redefinix l'eficiència i l'adaptabilitat en la indústria moderna. / [EN] Industry 4.0 faces significant challenges in pursuing digital transformation and operational efficiency. The increasing complexity of modern industrial environments leads to the need to deploy digital technologies and, above all, Industry automation. However, this path to innovation is accompanied by numerous obstacles, as the environment constantly changes. Therefore, to adapt to this evolution, it is necessary to employ more flexible approaches. These approaches are closely linked to the use of Artificial Intelligence (AI) and Reinforcement Learning (RL), as they emerge as pivotal solutions to address the crucial challenges of cooperative agent navigation within dynamic environments. Meanwhile, RL algorithms face the complexities involved in transmitting and processing large amounts of data. To address this challenge, Fifth Generation (5G) technology emerges as a key enabler for evolutionary problem scenario solutions. Among the main advantages of 5G is that it offers fast and secure transmission of large volumes of data with minimal latency. As the only technology so far capable of delivering these capabilities, 5G becomes an essential component for deploying real-time services such as cooperative navigation. Furthermore, another advantage is that it provides the necessary infrastructure for robust data exchanges and contributes to system efficiency and data security in dynamic industrial environments. In view of the above, it is clear that the complexity of industrial environments leads to the need to propose systems based on new technologies such as AI and 5G networks, as their combination provides a powerful synergy. Moreover, aside from tackling the challenges identified in cooperative navigation, it also opens the door to the implementation of smart factories, leading to higher levels of automation, safety, and productivity in industrial operations. It is important to note that the application of AI techniques entails the need to use simulation software to test the proposed algorithms in virtual environments. This makes it possible to address essential questions about the validity of the algorithms, reduce the risks of damage to the hardware, and, above all, optimize the proposed solutions. In order to provide a solution to the fundamental challenges in factory automation, this Thesis focuses on integrating mobile robotics in the cloud, especially in the context of Industry 4.0. It also covers the investigation of the capabilities of 5G networks, the evaluation of the feasibility of simulators such as Robot Operating System (ROS) and Gazebo, and the fusion of sensor data and the design of path planning algorithms based on RL. In other words, this Thesis not only identifies and addresses the key challenges of Industry 4.0 but also presents innovative solutions and concrete hypotheses for research. Furthermore, it promotes the combination of AI and 5G to deploy real-time services, such as cooperative navigation. Thus, it addresses critical challenges and demonstrates that technological collaboration redefines efficiency and adaptability in modern industry. / This research was funded by the Research and Development Grants Program (PAID-01-19) of the Universitat Politècnica de València. The research stay of the author at Technischen Universit¨at Darmstadt (Germany) was funded by the Program of Grants for Student Mobility of doctoral students at the Universitat Politècnica de València in 2022 from Spain and by Erasmus+ Student Mobility for Traineeship 2022 / Palacios Morocho, ME. (2024). Unleashing Technological Collaboration: AI, 5G, and Mobile Robotics for Industry 4.0 Advancements [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/204748 Fifth Generation Technology Cooperative Multi-Agent System Reinforcement Learning Independent Learning Joint Action Learning k-Nearest Neighbors Deep Deterministic Policy Gradient TEORÍA DE LA SEÑAL Y COMUNICACIONES
16	Investigation and design of 5G antennas for future smartphone applications Ojaroudi Parchin, Naser January 2020 (has links) The fifth-generation (5G) wireless network has received a lot of attention from both academia and industry with many reported efforts. Multiple-input-multiple-output (MIMO) is the most promising wireless access technology for next-generation networks to provide high spectral and energy efficiency. For handheld devices such as smartphones, 2×2 MIMO antennas are currently employed in 4G systems and it is expected to employ a larger number of elements for 5G mobile terminals. Placing multiple antennas in the limited space of a smartphone PCB poses a significant challenge. Therefore, a new design technique using dual-polarized antenna resonators for 8×8 MIMO configuration is proposed for sub 6 GHz 5G applications. The proposed MIMO configuration could improve the channel capacity, diversity function, and multiplexing gain of the smartphone antenna system which makes it suitable for 5G applications. Different types of new and compact diversity MIMO antennas with Patch, Slot, and Planar inverted F antenna (PIFA) resonators are studied for different candidate bands of sub 6 GHz spectrum such as 2.6, 3.6, and 5.8 GHz. Unlike the reported MIMO antennas, the proposed designs provide full radiation coverage and polarization diversity with sufficient gain and efficiency values supporting different sides of the mainboard. Apart from the sub 6 GHz frequencies, 5G devices are also expected to support the higher bands at the centimeter/millimeter-wave spectrums. Compact antennas can be employed at different portions of a smartphone board to form linear phased arrays. Here, we propose new linear phased arrays with compact elements such as Dipole and Quasi Yagi resonators for 5G smartphones. Compared with the recently reported designs, the proposed phased arrays exhibit satisfactory features such as compact size, wide beam steering, broad bandwidth, end-fire radiation, high gain, and efficiency characteristics. The proposed 5G antennas can provide single-band, multi-band, and broad-band characteristics with reduced mutual coupling function. The fundamental characteristics of the 5G antennas are examined using both simulations and measurements and good agreement is observed. Furthermore, due to compact size and better placement of elements, quite good characteristics are observed in the presence of the user and the smartphone components. These advantages make the proposed antennas highly suitable for use in 5G smartphone applications. / European Union Horizon 2020 Research and Innovation Programme under grant agreement H2020-MSCA-ITN-2016 SECRET-722424 Fifth Generation (5G) Mobile terminals Multiple-input-multiple-output (MIMO) Polarization and pattern diversity Smartphone antenna Slot antennas Beam-steerable phased array End-fire radiation Specific absorption rate (SAR) User-Impact Wireless networks
17	[en] INDOOR PROPAGATION MEASUREMENTS AT 28 AND 38 GHZ FOR APPLICATION IN THE 5TH GENERATION CELLULAR SYSTEMS / [pt] MEDIÇÕES DE PROPAGAÇÃO EM AMBIENTES FECHADOS NAS FAIXAS DE 28 E 38 GHZ PARA APLICAÇÃO EM SISTEMAS CELULARES DE QUINTA GERAÇÃO CRISTINE SIMOES FELISBINO 18 April 2022 (has links) [pt] O uso de dispositivos móveis cresceu exponencialmente nos últimos anos, tornando-se um desafio a melhoria da qualidade de sinal e o pleno atendimento a serviços que exigem altas taxas de dados e baixa latência. A fim de atender a crescente demanda de tráfego, as faixas de freqüências de ondas milimétricas começam a ser exploradas para aplicação à Quinta Geração de Comunicações Móveis. A partir de medições realizadas em ambientes fechados, nas faixas de freqüências de 28 GHz e 38 GHz, foi possível analisar o canal de comunicação com base nos modelos propagação para as faixas de freqüências de ondas milimétricas. / [en] Mobile usage has grown exponentially in recent years, making it a challenge to improve signal quality and fully support to services that require high data rates and low latency. In order to meet the growing traffic demand, millimeter-wave frequency bands are being explored for application to the 5th Generation of Mobile Communications. From measurements performed in indoor environments, in the 28 GHz and 38 GHz frequency range, it was possible to analyze the communication channel based on the propagation models for the millimeter wave frequency bands. [pt] COMUNICACOES MOVEIS [pt] PROPAGACAO EM AMBIENTES FECHADOS [pt] QUINTA GERACAO [pt] 5 G [pt] 38 GHZ [pt] 28 GHZ [pt] ONDAS MILIMETRICAS [en] MOBILE COMMUNICATIONS [en] PROPAGATION IN INDOOR ENVIRONMENTS [en] FIFTH GENERATION [en] 5 G [en] 38 GHZ [en] 28 GHZ [en] MILLIMETER WAVES
18	Simulation, Design and Implementation of Antenna for 5G and beyond Wave Communication. Simulation, Design, and Measurement of New and Compact Antennas for 5G and beyond and Investigation of Their Fundamental Characteristics Ulla, Atta January 2022 (has links) The fifth generation (5G) has developed a lot of interest, and there have been many reported initiatives in both industry and academics. Multiple-input-multiple-output (MIMO) is the most promising wireless access technique for next-generation networks in terms of spectral and energy efficiency (MIMO). In 4G systems, 2-Element MIMO antennas are already used, while 5G mobile terminals for smartphone hand-held devices are projected to use a bigger number of elements. The placement of many antennas in the restricted space of a smartphone PCB is one of the most critical challenges. As a result, for sub-6 GHz 5G applications, a new design technique based on dual-polarised antenna resonators for 6-Element, 8-Element MIMO configuration is proposed. The proposed MIMO design could improve the smartphone antenna system's chan-nel capacity, diversity function, and multiplexing gain, making it appropriate for 5G applica-tions. For distinct prospective bands of the sub-6 GHz spectrum, such as 2.6, 3.6, and 5.8 GHz, different types of novel and compact diversity MIMO antennas using Patch, Slot, and Planar inverted F antenna (PIFA) resonators are examined. Unlike previously reported MIMO antennas, the proposed designs provide full radiation coverage and polarisation diversity, as well as adequate gain and efficiency values to support several mainboard sides. Apart from sub-6 GHz frequencies, 5G devices are projected to support the centimetre/milli-metre wave spectrum's higher bands. To create linear phased arrays, small antennas can be placed at various locations on a smartphone board. For 5G smartphones, we propose novel linear phased arrays with tiny parts like Dipole and Quasi-Yagi resonators. In comparison to previously published designs, the suggested phased arrays have desirable qualities such as compact size, wide beam-steering, broad bandwidth, end-fire radiation, high gain, and efficiency. With a reduced mutual coupling function, the suggested 5G antennas can provide single-band, multi-band, and broad-band characteristics. Both models and measurements are used to an-alyse the fundamental features of 5G antennas, and good agreement is found. Furthermore, in the presence of the user and the smartphone components, good features are seen due to the small size and superior arrangement of elements. Because of these benefits, the sug-gested antennas are well-suited for usage in 5G smartphone applications. Fifth Generation (5G) Mobile terminals Multiple-input-multiple-output (MIMO) Polarisation and pattern diversity Smartphone antenna Slot antennas Beam-steerable phased array End-fire radiation Specific absorption rate (SAR) User-Impact Simulation Design
19	[en] INTERFERENCE MITIGATION SCHEMES FOR THE UPLINK OF MASSIVE MIMO IN 5G HETEROGENEOUS CELLULAR NETWORKS / [pt] MITIGAÇÃO DE INTERFERÊNCIAS EM SISTEMAS MIMO MASSIVO OPERANDO EM REDES HETEROGÊNEAS DE QUINTA GERAÇÃO (5G) JOSE LEONEL AREVALO GARCIA 15 August 2016 (has links) [pt] Na primeira parte desta tese, são desenvolvidos dois esquemas de detecção por listas para sistemas MIMO multiusuário. As técnicas propostas usam uma única transformação de redução de reticulado (LR) para modificar a matriz de canal entre os usuários e a estação base (BS). Após a transformação LR, um candidato confiável do sinal transmitido é obtido usando um detector de cancelamento sucessivo de interferências (SIC). No detector em múltiplos ramos com redução de reticulado e cancelamento sucessivo de interferências (MB-LR-SIC) proposto, um número fixo de diferentes ordenamentos para o detector SIC gera uma lista de possíveis candidatos para a informação transmitida. O melhor candidato é escolhido usando o critério maximum likelihood (ML). No detector por listas de tamanho variável (VLD) proposto, um algoritmo que decide se o candidato atual tem uma boa qualidade ou se é necessário continuar procurando por um candidato melhor nos ordenamentos restantes é utilizado. Os resultados numéricos mostram que os esquemas propostos têm um desempenho quase ótimo com uma complexidade computacional bem abaixo do detector ML. Um esquema de detecção e decodificação iterativa (IDD) baseado no algoritmo VLD é também desenvolvido, produzindo um desempenho próximo a um sistema mono usuário (SU) livre de interferências. Na segunda parte desta tese, uma técnica de detecção desacoplada de sinais (DSD) para sistemas MIMO massivo é proposta. Esta técnica permite que o sinal composto recebido na BS seja separado em sinais independentes, correspondentes a diferentes classes de usuários, viabilizando assim o uso dos procedimentos de detecção propostos na primeira parte desta tese em sistemas MIMO massivos. Um modelo de sinais para sistemas MIMO massivo com antenas centralizadas e/ou antenas distribuídas operando em redes heterogêneas de quinta geração é proposto. Uma análise baseada na soma das taxas e um estudo de custo computacional para DSD são apresentados. Os resultados numéricos ilustram o excelente compromisso desempenho versus complexidade obtido com a técnica DSD quando comparada com o esquema de detecção conjunta tradicional. / [en] In the first part of this thesis, we introduce two list detection schemes for the uplink scenario of multiuser multiple-input multiple-output (MUMIMO) systems. The proposed techniques employ a single lattice reduction (LR) transformation to modify the channel matrix between the users and the base station (BS). After the LR transformation, a reliable candidate for the transmitted signal vector, provided by successive interference cancellation (SIC) detection is obtained. In the proposed multi-branch lattice reduction SIC (MB-LR-SIC) detector, a fixed number of different orderings, generates a list of SIC detection candidates. The best candidate is chosen according to the maximum likelihood (ML) selection criterion. For the proposed variable list detection (VLD) scheme, an algorithm to decide if the current candidate has good quality or if it is necessary to further explore different orderings to improve the detection performance is employed. Simulation results indicate that the proposed schemes have a near-optimal performance while keeping its computational complexity well below that of the ML detector. An iterative detection and decoding (IDD) scheme based on the VLD algorithm is also developed, producing an excellent performance that approaches the single user (SU) scenario. In the second part of this thesis, a decoupled signal detection (DSD) technique which allows the separation of uplink signals, for each user class, at the base station (BS) for massive MIMO systems is proposed. The proposed DSD allows to implement the detection procedures proposed in the first part of this thesis in massive MIMO scenarios. A mathematical signal model for massive MIMO systems with centralized and distributed antennas in the future fifth generation (5G) heterogeneous cellular networks is also developed. A sum-rate analysis and a study of computational cost for DSD are also presented. Simulation results show excellent performance of the proposed DSD algorithm when combined with linear and SIC-based detectors. [pt] SISTEMA MIMO MULTIUSUARIO [pt] DETECCAO DESACOPLADA DE SINAIS [en] DECOUPLED SIGNAL DETECTION [en] VARIABLE LIST DETECTION
20	Context-aware mechanisms for device discovery optimization / Mécanismes sensibles au contexte pour l’optimisation de la découverte des appareils Ben Mosbah, Aziza 28 November 2017 (has links) La recherche dans les réseaux de communication cherche à améliorer la capacité et les performances des technologies de réseaux tout en satisfaisant à la fois la demande croissante d’instantanéité des accès et des échanges d’information. Par exemple, les travaux sur les systèmes sans-fil de cinquième génération (5G) visent à augmenter le débit de données et l’efficacité spectrale mais aussi à réduire la latence et la consommation d’énergie. Dans ce contexte, la mise en réseau basée sur la proximité est envisagée afin d’améliorer l’échange d’information entre périphériques proches, même dans le cas où aucune infrastructure n’est disponible. Une composante essentielle de ces solutions est la capacité de rapidement détecter (ou découvrir) les autres systèmes à proximité. Bien que l’utilisation de la découverte des systèmes et de services ne soit pas à proprement parler une nouveauté dans les réseaux, son adoption dans les réseaux sans-fil a augmenté l’importance et la pertinence de ce type de mécanismes. Par conséquence, l’objectif de cette thèse est d’optimiser les performances du processus de découverte en utilisant des mécanismes contextuels. Dans un premier temps, nous commençons par une description préliminaire des défis auxquels sont confrontés les utilisateurs du réseau et comment les solutions actuelles (c’est-à-dire Long Term Evolution (LTE)) ne peuvent pas couvrir leurs besoins. Dans un deuxième temps, nous présentons l’architecture utilisée pour évaluer nos propositions: l’architecture appareil-à-appareil (D2D) qui est définie par le programme de partenariat de troisième génération (3GPP) pour être utilisée dans les réseaux LTE. Nous mettrons tout particulièrement l’accent sur la description du processus de découverte tel qu’il est défini dans les spécifications. Finalement, nous présentons une étude analytique, avec un modèle de mise en oeuvre pour tester et valider les performances de la découverte directe. En utilisant cette analyse, nous proposons un algorithme de transmission adaptatif qui optimise le processus de découverte pour les topologies statiques. Cette contribution sert de base à des algorithmes étendus et améliorés ciblant premièrement des scénarios où la disponibilité de données historiques permet de prédire les fluctuations de la densité des utilisateurs, et deuxièmement des situations entièrement dynamiques sans infrastructure ou support externe, montrant comment les mécanismes contextuels peuvent fournir des performances presque optimales. Toutes ces contributions et ces analyses sont supportées et validées par des modèles de simulation et des expériences qui montrent l’importance et l’exactitude de nos propositions dans l’optimisation de la performance et de la fiabilité dans le cadre de la découverte directe / Research in communication networks aims to improve the capabilities and performance of network technologies, and to satisfy the ever increasing demand for instant information access and exchange. For example, work on Fifth Generation (5G) Wireless Systems aims to increase data rates and spectral efficiency while lowering latency and energy consumption. Within this context, proximity-based networking is being considered in order to improve the data sharing between nearby devices, regardless of the availability of additional infrastructure. An integral component of these solutions is the ability to quickly detect (or discover) other systems in the vicinity. While system and service discovery has been a concept used in networks for some time, its adoption by wireless networks has increased the importance and relevance of this type of mechanisms. Therefore, the goal of this thesis is to optimize the performance of the discovery process by using context-aware mechanisms. First, we start by an introductory description of the challenges faced by network users and how current solutions (i.e. Long Term Evolution (LTE)) are unable to cover their needs. Second, we present the architecture we will use to evaluate our proposals, namely the device-to-device (D2D) architecture defined by the Third-Generation Partnership Program (3GPP) for use in LTE networks, with an emphasis on the description of the discovery process as defined in the standard specifications. Then, we present an analytical study, along with an implementation model to test and validate the performance of direct discovery. Building upon that analysis, we propose an adaptive transmission algorithm that optimizes the discovery process for static topologies. This contribution is used as the foundation for extended and enhanced algorithms targeting scenarios where the availability of historic data allows for predicting user density fluctuations, and fully dynamic situations without external infrastructure or support, showing how context-aware mechanisms can provide almost optimal performance. All these contributions and analysis are supported and validated by simulation models and experiments that showcase the importance and correctness of our proposals in the optimization of the performance and reliability in D2D direct discovery Cinquième génération (5G) Long term evolution (LTE) Services de proximité (ProSe) Découverte des appareils Sécurité publique Fiabilité Performance Mécanismes contextuels Optimisation Réseaux sans fil Protocoles Fifth generation (5G) Proximity services (ProSe) Long term evolution (LTE) Device-to-device (D2D) D2D discovery Public safety Reliability Performance Context-awareness Optimization Wireless networks Protocols

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