Relevant bibliographies by topics / 5G technology

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic '5G technology'

Author: Grafiati
Published: 4 June 2021
Last updated: 30 May 2022

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Journal articles on the topic "5G technology"

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Sankar, K. "5G Technology." Shanlax International Journal of Arts, Science and Humanities 9, no. 1 (July 1, 2021): 141–46. http://dx.doi.org/10.34293/sijash.v9i1.4033.

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5G is almost around the corner. 5G as a buzzword has been knocking on our doors for some time now sans a lot of action on the ground. However, that’s about to change as the Department of Telecom (DOT) recently approved applications from Telecom Service Providers (TSPs) to conduct trials for the use and application of 5G technology. While field trials begin here in India, 5G as a technology has been commercially available in just over 50 countries such as France, South Korea, the US, etc. for a few years and there are valuable lessons that we can take from launches, successes, and failures in these markets. Indian operators could learn from their counterparts’ experience and avoid or rather not repeat the same mistake which their counterparts might have made.Let’s take the case of 5G in France that has been commercially available since November 2020. A recent study done by us showed that there exists a gap in the quality of experience delivered by TSPs on 5G. The study was the first of its kind, measured experience on real devices placed in actual customer locations across nine major French cities. It revealed that while the incumbent operator provided average speeds of 146 Mbps, the newer operator is left far behind at 28 Mbps, which is a speed one would expect on 4G. These discrepancies between operators could be a result of different deployment strategies.Such discrepancies can be problematic as they finally impact end customers. And in today’s time when the nation is grappling a devastating second wave of the Covid-19 pandemic, providing seamless digital experience so that digital applications ranging from education and work to entertainment and dining can continue remotely.
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Patkar, Ankit. "5G Wireless Technology." International Journal for Research in Applied Science and Engineering Technology 10, no. 3 (March 31, 2022): 1519–24. http://dx.doi.org/10.22214/ijraset.2022.40930.

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Abstract: After the up rise of 4G wireless mobile technology takes place; researchers, mobile operator industries representative, academic institutions have started to look into the advancement (technological) towards 5G communication networks due to some main demands that are meliorated data rates, better capacity, minimized latency and better QoS (Quality of Service). To established the 5G mobile communication technological foundation, various research works or projects entailing main mobile infrastructure manufacturers, academia and international mobile network operators have been introduced recently. Nevertheless, 5G mobile services to be made available for use, their architecture, and their performance have not been evidently explicated. In this paper, we represent thorough overview of 5G the next generation mobile technology. We mainly throws light on 5G network architecture, 5G radio spectrum, ultra-dense radio access networks (UDRAN), traffic offloading of mobile, cognitive radio (CR), software defined radio (SDR), software defined networking (SDN), mixed infrastructure, and 5G network impact on the society. Keywords: 5G wireless technology, evolution from 4G to 5G
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Sountharraj, Mr A. C. "5g Mobile Technology." International Journal for Research in Applied Science and Engineering Technology 6, no. 1 (January 31, 2018): 1699–702. http://dx.doi.org/10.22214/ijraset.2018.1259.

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Cooper, Martin. "5G Technology Briefing." ITNOW 60, no. 3 (2018): 16–20. http://dx.doi.org/10.1093/itnow/bwy062.

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Shinde, Mr Sangram Tanaji. "5G Wireless Technology." International Journal for Research in Applied Science and Engineering Technology 9, no. VII (July 10, 2021): 256–57. http://dx.doi.org/10.22214/ijraset.2021.36259.

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This 5G stands for fifth generation wireless technology. It is the latest version of cellular technology that has main features: Grater speed, lower latency, and ability to connect a lot more devices simultaneously. A commercial 5G wireless network is expected to be deployed by 2021.
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Likhar, Kiran, Shraddha Karale, and Rashmi Bhat. "Challenges and Emerging Technology in 5G." International Journal of Trend in Scientific Research and Development Volume-2, Issue-3 (April 30, 2018): 41–48. http://dx.doi.org/10.31142/ijtsrd10778.

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Admaja, Awangga Febian Surya. "Pemetaan Riset Teknologi 5G [5G Technology Research Mapping]." Buletin Pos dan Telekomunikasi 16, no. 1 (June 30, 2018): 27. http://dx.doi.org/10.17933/bpostel.2018.160103.

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Ilderem, Vida. "The technology underpinning 5G." Nature Electronics 3, no. 1 (January 2020): 5–6. http://dx.doi.org/10.1038/s41928-019-0363-6.

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Gurav, Sushmita. "A Survey on:5G Technology." International Journal for Research in Applied Science and Engineering Technology 7, no. 6 (June 30, 2019): 2598–601. http://dx.doi.org/10.22214/ijraset.2019.6440.

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Bezzateev, S. V., and I. R. Fedorov. "Blockchain technology in 5G networks." Scientific and Technical Journal of Information Technologies, Mechanics and Optics 20, no. 4 (August 1, 2020): 472–84. http://dx.doi.org/10.17586/2226-1494-2020-20-4-472-484.

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Dissertations / Theses on the topic "5G technology"

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Monje, Real Alberto. "Filters for 5G mmWave." Thesis, KTH, Skolan för elektroteknik och datavetenskap (EECS), 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-260071.

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Periodic structures are an emerging eld in nowadays's microwave designs.These structures have been proven to be capable of achieving compact, ecientsolutions to problems such as leakage, or surface waves. Moreover, they haveshown interesting properties in dierent microwave related areas, such as lensantenna design, and gap-waveguide technology. However, the application ofperiodic structures to lter design has not been extensively investigated yet.In this work, the designs of several ltering structures are carried out withthe aim of exploring the possibilities of the application of periodic surfaces tolter design. The ltering structures consist of passband lters at millimeterwave frequencies (28 GHz) for the fth generation (5G) technology, which alsomust suppress the harmonics at twice the passband frequency.The main contribution of this thesis is the introduction of a new form of geometrythat has proven to improve in a great factor the attenuation propertiesof traditional, state-of-the-art geometries.The complete design process is described, starting by the analysis of a unit cellusing the dispersion diagram, continuing by designing the lter, and nalizingwith the design of a tapering structure of a coaxial feed to the lter. Somenumerical techniques are explained for better understanding of the structuresand for accelerating the calculations. A design has been manufactured andmeasured to assess its performance, comparing it to the simulated results.
Periodiska strukturer är ett forskningsfält på framväxt när det kommer tilldesign av mikrovågskomponenter. Sådana strukturer har visat sig kapabla att tillhandahålla kompakta och effektiva lösningar till problem såsom läckage och undertryckning av ytvågor. Dessutom, de har visat sig användbara i andra mikrovågsrelaterade områden, så som designen av linsantenner och ”gap”-vågledare. Dock återstår det fortfarande att undersöka möjligheterna för periodiska strukturer i designen av filter.Huvudbidraget av den här avhandlingen är introduktionen av en ny typ av geometri, som har visat sig öka dämpningsegenskaperna av toppmodern struk-turer.I detta arbete studeras periodiska strukturer med målet att utforska dess användbarhet i filter, och ett komplett filter designas med bas i dessa undersökningar. Filtren har ett passband på millimeterfrekvenser (28 GHz), med tilltänkt användningsområde för 5G. I detta användningsområde är det viktigt att undertrycka övertoner som återfinns på dubbla passbandsfrekvensen, vilket tagits i åtanke.Hela designen och designprocessen förklaras i avhandlingen; vi börjar med studien av enhetscellen som analyseras med dispersionskurvor, och vi fortsätter med designen av filtret, och avslutar med designen av matchningssektionen mellan filtret och en koaxialkabel. Vissa numeriska metoder kommer att förklaras för att bättre förstå strukturen och för att accelerera beräkningarna. En prototyp tillverkas och testad för att utvärdera prestandan, och jämförelsermed simuleringsresultat är gjorda.
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Bulashenko, A. V., and I. V. Zabegaloff. "5G ultra dense networks." Thesis, Sumy State University, 2017. http://essuir.sumdu.edu.ua/handle/123456789/66962.

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The traffic demands predicted by 2030 are up to 10,000 times greater than in 2010 and end-service users will need to support 100 Mbps. One of the key developments that will provide this demand is the deployment of very dense and multi layered networks.
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Булашенко, А. В., and І. В. Забегалов. "Частотний діапазон майбутніх мереж 5G." Thesis, Сумський державний університет, 2017. http://essuir.sumdu.edu.ua/handle/123456789/66956.

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На сьогоднішній час розробники дійшли згоди, що майбутні мережі 5G перейдуть (лише частково) у діапазони частот НВЧ (3-30 ГГц, 10-1 см) і можливо навіть КВЧ (30- 300 ГГц, 10-1 мм), [2]. Використання таких екзотични для мобільного радіозв’язку діапазонів частот вимагає перегляду принципів радіодоступу як на фізичному так і на MAC рівнях.
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Torres, Florent. "Power amplifier design for 5G applications in 28nm FD-SOI technology." Thesis, Bordeaux, 2018. http://www.theses.fr/2018BORD0064/document.

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Le futur réseau mobile 5G est prévu pour être déployé à partir de 2020, dans un contexte d’évolution exponentielle du marché de la téléphonie mobile et du volume de données échangées. La 5G servira de levier à des applications révolutionnaires qui permettront l’émergence du monde connecté. Dans ce but, plusieurs spécifications pour le réseau sont attendues même si aucun standard n’est encore défini et notamment une faible latence, une consommation d’énergie réduite et un haut débit de données. Les bandes de fréquences traditionnellement utilisées dans les réseaux mobiles ne permettront pas d’atteindre les performances visées et plusieurs bandes de fréquences millimétriques sont à l’étude pour créer un spectre complémentaire. Cependant, ces bandes de fréquence millimétriques souffrent d’une forte atténuation dans l’air et dans les matériaux de construction. Plusieurs techniques vont être implémentées pour outrepasser ces limitations dans les zones urbaines denses comme le backhauling, FD-MIMO et beamforming phased array. Ces techniques entraînent l’utilisation d’un grand nombre de transmetteurs dans les stations de bases et dans les dispositifs de l’utilisateur final. La technologie CMOS offre d’indéniables avantages pour ce marché de masse tandis que la technologie FD-SOI offre des performances et fonctionnalités additionnelles. L’amplificateur de puissance est le bloc le plus critique à concevoir dans un transmetteur et consomme le plus d’énergie. Afin d’adresser les challenges de la 5G, plusieurs spécifications concernant la puissance consommée, la linéarité et le rendement sont attendues. Les variations de l’environnement dans les beamforming phased array et le contexte industriel nécessitent des topologies robustes alors qu’une reconfigurabilité au niveau de l’amplificateur de puissance est bénéfique dans le cas de circuits adaptatifs. Cette thèse adresse ces challenges en explorant la conception d’un amplificateur de puissance reconfigurable et robuste pour des applications 5G en intégrant des techniques de design spécifiques et en mettant en avant les avantages de la technologie 28nm FD-SOI pour la reconfigurabilité
The 5G future mobile network is planned to be deployed from 2020, in a context of exponential mobile market and exchanged data volume evolution. The 5G will leverage revolutionary applications for the advent of the connected world. For this purpose, several network specifications are expected notably low latency, reduced power consumption and high data-rates even if no standard is yet defined. The frequency bands traditionally used for mobile networks will not permit the needed performances and several mmW frequency bands are under study to create a complementary frequency spectrum. However, these mmW frequency bands suffer from large attenuation inbuilding material and in free-space. Therefore, several techniques will be implemented to tackle these limitations indense urban areas like backhauling, FD-MIMO and beamforming phased array. This is leading to a large number of transceivers for base stations and end-user devices. CMOS technology offers undeniable advantages for this mass market while FD-SOI technology offers additional features and performances. The power amplifier is the most critical block to design in a transceiver and is also the most power consuming. To address the 5G challenges, several specifications concerning power consumption, linearity and efficiency are expected. The environment variations inbeamforming phased array and the industrial context drive the need for robust topologies while power amplifier reconfigurability is benefic in a context of adaptive circuits. This thesis addresses these challenges by exploring the conception of a robust and reconfigurable power amplifier targeting 5G applications while integrating specific design techniques and taking advantage of 28nm FD-SOI CMOS technology features for reconfigurability purposes
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Mostafavi, Seyed Samie. "Vehicular Positioning Using 5G and Sensor Fusion." Thesis, KTH, Skolan för elektroteknik och datavetenskap (EECS), 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-266117.

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Recent advances in the telecommunications industry and the resulting applicationssuch as autonomous vehicles, vehicle surveillance and traffic safetyhas increased the demand for accurate and robust vehicle positioning systems.Existing Global Navigation Satellite System (GNSS) based positioning techniquesface significant performance loss in the tunnels and urban canyons.Recent researches have shown that radio-based positioning techniques are theoreticallypromising to make an accurate navigation system to fill the GNSSgaps. Fifth generation of mobile communication (5G) will utilize wide bandwidthstogether with beamforming enabled by antenna arrays to provide higherdata rates to mobile users. These features make 5G a favorable candidate forhigh accuracy positioning. On the other hand, sensor fusion is commonly employedto develop more robust and accurate navigation systems for vehicles. Inthis work, the range and angle measurements from 5G base stations are fusedwith the acceleration measurements by the means of the extended Kalman filterto generate position estimates for a moving car. The accuracy of this positioningsystem is studied with centimeter wave (cmWave) and millimeter wave(mmWave) 5G cellular networks which are set up by practical parameters. Towardsthat, the positioning system is tested in a simulation-based experimentwhere a car is moving on a highway and the 5G base stations are deployedalongside of it. Based on that, a detailed analysis of the Kalman filter’s rootmean squared error (RMSE) and the 5G’s different parameters and limitingfactors such as the line of sight (LOS) blockage is carried out. Our numericalresults show that vehicles connected to 5G can benefit from this system to enhancethe robustness and accuracy of their navigation system.
De senaste framstegen inom telekommunikationsindustrin och de resulterandeapplikationerna som autonoma fordon, fordonsövervakning och trafiksäkerhethar ökat efterfrågan på exakta fordonspositioneringssystem. ExisterandeGlobal Navigation Satellite System (GNSS) baserade positioneringsteknikerhar en betydande prestandaförlust i tunnlar och urbana kanjoner. Forskninghar visat att radiobaserade positioneringstekniker har mindre distributionskostnaderoch kan vara mer exakta än satellitbaserade navigationssystem.I den femte generation av mobilkommunikation (5G) används tekniker sommillimeterWave (mmWave) och multiple-input multiple-output (MIMO) därradio-terminaler består av stora matrisantenner och arbetar med stora bandbredder.Dessa funktioner gör 5G-system gynnsamma för positionering medhög noggrannhet. Å andra sidan har informationsfusion av Inertial NavigationSystems (INS) och andra positioneringstekniker vanligen använts för attutveckla mer robusta och exakta spårningssystem. I denna studie föreslår viett INS/5G-positioneringssystem för att spåra landfordon baserat på Kalmanfiltret. Vi adresserar systempositioneringsgränserna i termer av 5G nya radio(NR) subsystem och en detaljerad analys av beroendet av rotmedelfelteradkvadratfel (RMSE) för olika systemparametrar som utförs. Systemet testas iett enkelt simuleringsbaserat experiment som består av en rak motorväg medbasstationerna placerade bredvid det. Slutligen visar våra numeriska resultatatt det föreslagna systemet är i stånd att lokalisera ett UE-monterat fordon medsub-meter lägesfel även i närvaro av hård siktlinje blockering.
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Adebomehin, Akeem A. "Ultrawideband IEEE802.15.4a cognitive localization methods for the 5G environment." Thesis, University of Essex, 2017. http://repository.essex.ac.uk/20006/.

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This thesis focuses on utilization of ultra-wideband (UWB) technology for cognitive localization in the fifth generation (5G) wireless environment that envisages seamless global connection of ubiquitous devices. This suggests the need for cognitive high-definition location-aware networks and devices devoid of the drawbacks of current positioning systems. The thesis therefore models a cognitive UWB IEEE802.15.4a LOS sufficient technique (ULOSTECH); with a framework for optimal UWB localization channel that utilizes combined cluster decay rate and mistiming probability method that achieves over 90% realizations. Moreover, the ULOSTECH NLOS mitigation method achieves about 0.257 improvement ratio on the accuracy of cellular network localization methods. An impulse radio (IR)-UWB device-to-device (D2D) WWAN is further proposed with channel time partitioned into discrete micro-channel slots (DMCS) along with a cluster formation scheme that achieves above 350Mbps network throughput in comparison with 100Mbps cellular and 250Mbps wi-fi standards respectively. Additionally, the cluster cooperation method achieves multi-user access rate of over 485% above cellular network standards. Also proposed is the ULOSTECH D2D-propagation-based combined localization and communication scheme (UD-CLOCS) for ultra-dense networks. This utilizes cooperative D2D data hoping localization technique that achieves a mean distance error of 0.54 – 3.32 shorter than trilateration and multi-dimensional scaling (MDS) methods respectively. Finally, the thesis proposes an overall IR-UWB network layout for the 5G setting. This comprises an all-IP D2D UWB network overlay of concurrent multi-layered super-core architecture (5G-COMUSA). This is significant as the proposed solutions could serve to decongest the licensed spectrums in the 5G environment.
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Guzel, Nazim Beysin, and Ogul Tasman. "Diffusion of 5G Technology and Potential Impact on Business Models : Technology Enabled Value Creation in the Cleaning Industry." Thesis, Uppsala universitet, Industriell teknik, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-447298.

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New technological innovations are considered as one of the major drivers of economic growth. However, in order to be able to achieve this growth, the diffusion of these new technologies is essential. The large number of factors that influence the diffusion process makes it rather difficult to make estimations, before the realization of the process. Especially emerging technologies, such as 5G technology, can considerably benefit from a better analysis of the diffusion process in order to fully realize their potential. Based on this shortcoming in the existing literature, this study aims to determine the possible impacts of adoption of 5G technology on business models within the cleaning industry. As it is implied in the objective, these impacts of adoption of 5G technology on business models are enabled by the adoption of 5G technology. Therefore, the constraints which influence the adoption of 5G technology are researched initially, as it is a prerequisite to identify potential modifications on business models.    A qualitative research methodology was deemed appropriate after the investigation of previous research within the field and to complement the case study design which this thesis internalizes. In addition to the review of relevant academic literature, twelve semi-structured interviews have been conducted as another data source. The qualitative data obtained from these interviews are analyzed using the thematic analysis method and themes are identified after the coding and categorization process. After the analysis, three areas of interest, which are Revenue Models, Logistics Operations and Automation for Individualization, have been identified according to the similarities of results, anticipated opportunities and observed challenges within the cleaning industry. Within these areas, the effects of adopting 5G technology on the value proposition of the business model are examined while considering the drawbacks of the cleaning industry through the collaboration with an external company called L2GO. The study concludes by proposing four potential implications of 5G adoption on business models within the identified areas and identifying the possible changes in their value propositions.
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Azadehnia, Arefeh. "What benefits will 5G be for small and mid-sized companies?" Thesis, Högskolan i Gävle, Avdelningen för elektroteknik, matematik och naturvetenskap, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:hig:diva-30727.

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The fifth generation of mobile communication (5G) is the latest generation of wireless technology and it is expected to have an immense opportunity for great different number of industries. This technology is going to meet current wireless technologies limitations and enable fully smart factories. Some large companies intend to developing their communication technologies to 5G, however, there are some surveys showing that small and mid-sized enterprises (SMEs) have paid less attentions to this technology and also they adopt the mindset of wait-and-see which increase the possibility of failing their business. The reason can be that SMEs mostly do not have IT specialists or researchers and due to the lack of financial resources for research in communication information technology (CIT) and automation. Consequently, enhancing their automation systems is going to be very costly and perhaps risky. The risk of this is that, many times due to using old technologies, their competitors will overcome them in the business. This research aims to study the benefit of the 5G for small and middle size manufacturing and to explore if 5G is an optimal solution for SMEs network communication. To provide that, five companies are selected and investigated in Gävleborg and Dalarna counties in Sweden. Then each company is interviewed individually and the evaluations are done by an observing survey and review of the literature. The investigation shows that wired systems are still providing the main communication network technologies in SMEs. Besides, current communication issues that SMEs are dealing with are usually due to using insufficient technologies. In other hands, current radio access is still based on the advanced LTE, whereas the 5G, which is promised to meet all a fully smart industrial requirements is known as 5G New radio (NR), is still on the progress and predicted to have expensive implementation. On the other hand, in future when 5G NR system will be widespread accessible everywhere, and also when we will have optimal and straightforward factory ecosystem transformation, broad 5G applications and simple IT-support the business, a fundamental change is going happen on the way of business scenery for all size of enterprises. As a consequence, if SMEs do not adapt themselves to the new technology and new business model, they will go out of the business.
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Saeidian, Sara. "Deep Reinforcement Learning for Downlink Power Control in Dense 5G Networks." Thesis, KTH, Skolan för elektroteknik och datavetenskap (EECS), 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-265675.

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This thesis examines the problem of downlink power allocation in dense 5Gnetworks, and attempts to develop a data-driven solution by employing deepreinforcement learning. We train and test multiple reinforcement learningagents using the deep Q-networks (DQN) algorithm, and the so-called Rainbowextensions of DQN. The performance of each agent is tested on 5G UrbanMacro simulation scenarios, and is benchmarked against a fixed power allocationapproach. Our test results show that the DQN models are successful atimproving data rates at cell-edge, while generalizing well to previously unseensimulation scenarios. In addition, the agents induce throughput balancing effects,i.e., achieve fairness among users, in networks with full-downlink-buffertraffic by properly designing the reward signal.
Det här examensarbetet undersöker kraftallokering i nedlänksriktning för täta5G-nätverk och försöker utveckla en datadriven lösning genom användning avdeep reinforcement learning. Vi tränar och testar flera reinforcement learningagentermed deep Q-networks (DQN) algoritmen, och de så kallade ”Rainbowextensions” av DQN. Prestandan av varje agent testas på storskaliga tätortsscenarionför 5G, och jämförs med en fast kraftallokeringsmetod.Våra testresultatvisar att DQN-modellerna leverar högre överföringshastigheter vid cellkanten,samtidigt som metoden fungerar väl för okända simuleringsscenarion. Utöverhastighetsökningen så balanserar agenterna dataflödet, vilket leder till rättvisallokering bland användarna i nätverk med ”full-downlink-buffer”-trafik genomatt korrekt designa belöningssignalen.
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Habib, Imran. "5G@15 GHz Testbed Development and Evaluation." Thesis, KTH, Skolan för elektroteknik och datavetenskap (EECS), 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-240420.

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Due to the advancement in technology and the increase in the amount of data beingtransferred through wireless channels, many developments in the techniques and speedof data transfer have been observed in the past few decades. The current trend incellular technology is transforming from 4G to 5G. So, to meet future requirements,it is highly necessary to have further improvements in technology like modulationtechniques, Channel access methods, etc. Many top research institutes around the worldare investing heavily in research and development of 5G.Radio waves have been used for a very long time in mobile phone communication,but providers are experimenting with broadcasting on millimeter waves which usehigher frequencies ranging from 6GHz to 300GHz. Data characteristics like power,SNR, interference, etc. need to be evaluated for these high frequencies. As 5G is still ininitial phases of development, there are not many testing tools to check and evaluateits performance. A testbed is a testing tool which is used for conducting rigorous,transparent, and replicable testing, experimenting and evaluating the performance ofthese propagated data at these high frequencies.The thesis work evaluates the implementation structures of the 5G testbed @15GHzand its performance in indoor and outdoor scenarios. It also talks about the methods ofsignal generation through Matlab and it’s transmission at 15GHz using Xilinx FPGAand Analog devices’ FMCOMMS5 transceiver. This data is then transmitted andreceived by patch antennas provided by Ericsson AB. Various techniques were used inorder to improve the signal, like using RF hardware components and software modules.Different channel sounding techniques were used in order to achieve the synchronizationbetween the transmitter and the receiver node in order to measure the properties ofthe channel. All of the experiments were performed by implementing a single-inputsingle-output system (SISO) module of the 5G testbed. This SISO system can be easilytransformed into a multiple-input-multiple-output system (MIMO) by replicating theoriginal SISO system.The result shares some interesting findings on the readiness of the 5G testbed for aiiiivbetter understanding of the future technology. It is concluded that this testbed providessomewhat a reliable platform to test the performance of the 5G technology.
Tack vare teknikutveckling och ökning i mängden data som sänds trådlöst, hardatatakterna ökat enormt under de senaste decennierna. Den senaste trended inomtrådlös kommunikationärövergången från 4G till 5G. För att möte framtida krav,finns det därför behov av ytterligare teknologiutveckling, t ex i modulationstekniker och kanalaccessmetoder. Många forskningsinstitut runt om i världen investerar därför i forskning och utveckling av 5G.Radiovågor har använts under väldigt lång tid för mobil kommunikation, men tillverkare och operatörer experimenterar med sändningar i millimetervågsområdet, som använder högre frekvenser i området från 6GHz till 300GHz. Egenskaper såsom effektdämpning, SNR, interferens, osv, behöver utvärderas för dessa högre frekvenser. Eftersom utvecklingen av 5G fortfarande är i en tidig fas, finns inte så många testverktygtillgängliga för prestandautvärdering. En testbädd är ett testverktyg som användsför att utföra rigorös, transparent och upprepningsbar testning, experimentering och prestandautvärdering av data som har sänts vid dessa höga frekvenser.Denna rapport utvärderar implementationsstrukturer för en 5G-testbädd vid 15GHz,och dess prestanda i inomoch utomhusscenarier. Den beskriver även metoder försignalgenerering via Matlab och sändning vid 15GHz mha Xilinx FPGA och Analog devices’ FMCOMMS5 radiomoduler. Signalen sänds sedan via patch-antenner från Ericsson AB. Olika metoder användes för att förbättra signalen, både med radiofrekvens hårdvara och mjukvarumoduler. Olika kanalmätningsmetoder har använts för att nå synkronisering mellan sändaroch mottagarnoderna, för att mäta kanalegenskaper. Alla experimenten utfördes genom att implementera en SISO-modul (en sändarresp. mottagarantenn) av 5G-testbädden. Detta SISO-system kan enkelt utökas till ett MIMO system (flera sändaroch mottagarantenner) genom att replikera SISO-systemet.Resultaten visar att 5G-testbädden är redo att användas för att nå bättre förståelse av framtida teknologin. Slutsatsen är att testbädden erbjuder en tämligen påliglig plattformför att utvärdera prestanda för 5G-teknologi.
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Books on the topic "5G technology"

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Dohler, Mischa, and Takehiro Nakamura. 5G Mobile and Wireless Communications Technology. Edited by Afif Osseiran, Jose F. Monserrat, and Patrick Marsch. Cambridge: Cambridge University Press, 2016. http://dx.doi.org/10.1017/cbo9781316417744.

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Holma, Harri, Antti Toskala, and Takehiro Nakamura, eds. 5G Technology. Wiley, 2019. http://dx.doi.org/10.1002/9781119236306.

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Toskala, Antti, Harri Holma, and Takehiro Nakamura. 5G Technology: 3GPP New Radio. Wiley & Sons, Incorporated, John, 2019.

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5G Technology: Future 3Gpp Solution. Wiley & Sons, Limited, John, 2020.

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Toskala, Antti, Harri Holma, and Takehiro Nakamura. 5G Technology: 3GPP New Radio. Wiley & Sons, Incorporated, John, 2019.

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5G mobile and wireless communications technology. Cambridge University Press, 2016.

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Chiang, Mung, Flavio Bonomi, and Bharath Balasubramanian. Fog for 5G and IoT. Wiley & Sons, Incorporated, John, 2017.

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Chiang, Mung, Flavio Bonomi, and Bharath Balasubramanian. Fog for 5G and IoT. Wiley & Sons, Incorporated, John, 2017.

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Bojkovic, Zoran, Dragorad Milovanovic, and Tulsi Pawan Fowdur. 5G Multimedia Communication: Technology, Multiservices, and Deployment. Taylor & Francis Group, 2020.

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Bojkovic, Zoran, Dragorad Milovanovic, and Tulsi Pawan Fowdur. 5G Multimedia Communication: Technology, Multiservices, and Deployment. Taylor & Francis Group, 2020.

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Book chapters on the topic "5G technology"

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Joshi, Pooja, Ashish Bagwari, and Ashish Negi. "5G Technology." In Advanced Wireless Sensing Techniques for 5G Networks, 47–55. Boca Raton : Taylor & Francis, a CRC title, part of the Taylor & Francis imprint, a member of the Taylor & Francis Group, the academic division of T&F Informa, plc, 2019.: Chapman and Hall/CRC, 2018. http://dx.doi.org/10.1201/9781351021746-15.

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Wang, Xiwen, and Longxiang Gao. "5G Technology System." In When 5G Meets Industry 4.0, 17–41. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-6732-2_2.

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Hasan, Syed Faraz. "5G Communication Technology." In Emerging Trends in Communication Networks, 59–69. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-07389-7_6.

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Yang, Yang, Jing Xu, Guang Shi, and Cheng-Xiang Wang. "Evolution of Testing Technology." In 5G Wireless Systems, 21–44. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-61869-2_2.

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Suri, Ajay, and Rashi Sharma. "​​Advancement of 5G Technology." In Recent Trends in Communication and Electronics, 78–82. London: CRC Press, 2021. http://dx.doi.org/10.1201/9781003193838-15.

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Shahmansoori, Arash, Gonzalo Seco-Granados, and Henk Wymeersch. "Survey on 5G Positioning." In Multi-Technology Positioning, 165–96. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-50427-8_9.

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Badic, Biljana, Christian Drewes, Ingolf Karls, and Markus Mueck. "The Evolution and Technology Adaptations of 4G." In Rolling Out 5G, 11–38. Berkeley, CA: Apress, 2016. http://dx.doi.org/10.1007/978-1-4842-1506-7_2.

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Hakola, Sami, Toni Levanen, Juho Pirskanen, Karri Ranta-aho, Samuli Turtinen, Keeth Jayasinghe, and Fred Vook. "Radio Access Technology." In 5G for the Connected World, 51–126. Chichester, UK: John Wiley & Sons, Ltd, 2019. http://dx.doi.org/10.1002/9781119247111.ch3.

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Lee, Juho, and Yongjun Kwak. "5G Standard Development: Technology and Roadmap." In Signal Processing for 5G, 561–76. Chichester, UK: John Wiley & Sons, Ltd, 2016. http://dx.doi.org/10.1002/9781119116493.ch23.

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Fischer, Walter. "LTE/5G-Based Broadcast." In Digital Video and Audio Broadcasting Technology, 987–1000. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-32185-7_48.

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Conference papers on the topic "5G technology"

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Joshi, Shreyas, Sohan Zadbuke, Nagesh Kumbar, Sanket Malshette, and Vrushali Gurav. "5G Technology Evolutions." In National Conference on Relevance of Engineering and Science for Environment and Society. AIJR Publisher, 2021. http://dx.doi.org/10.21467/proceedings.118.35.

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5G technology has number of existing generations of wireless technologies in terms of their portal, efficiency, effectiveness, and cost-benefit analysis. The paper puts a focus on the evolution and development of various generations of mobile wireless technology along with their significance and advantages of one over the other. From past several decades, mobile wireless technologies have experience 4 or 5 generations of technology revolution and evolution, namely from 1G to 4G. The Current research in mobile wireless technology concentrates on promoting the implementation of LTE technology and 5G technology. At present, the term is not officially used. In 5G, the research on the development of World Wide Wireless internet access (WWW), Dynamic adhoc Wireless Networks (DAWN) and Real Wireless World. In this paper, we focusa new network architecture for the next-generation of mobile networks, 5G. In this architecture, the mobile device will have the ability to get to the Radio Access Technology - RAT based on certain user-defined criteria.
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Tafazolli, R. "IET 5G Radio Technology Seminar." In 5G Radio Technology Seminar. Exploring Technical Challenges in the Emerging 5G Ecosystem. Institution of Engineering and Technology, 2015. http://dx.doi.org/10.1049/ic.2015.0027.

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Shukurillaevich, Usmonov Botir, Radjabov Ozod Sattorivich, and Rustamov Umedjon Amrillojonovich. "5g Technology Evolution." In 2019 International Conference on Information Science and Communications Technologies (ICISCT). IEEE, 2019. http://dx.doi.org/10.1109/icisct47635.2019.9011957.

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Chen, Huajun, and Lina Yuan. "5G Mobile Communication Technology." In 2016 5th International Conference on Environment, Materials, Chemistry and Power Electronics. Paris, France: Atlantis Press, 2016. http://dx.doi.org/10.2991/emcpe-16.2016.81.

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Annunziato, A. "5G Vision: NGMN - 5G Initiative." In 2015 IEEE 81st Vehicular Technology Conference (VTC Spring). IEEE, 2015. http://dx.doi.org/10.1109/vtcspring.2015.7145586.

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T, Padmashree, and Sampan S. Nayak. "5G Technology for E-Health." In 2020 Fourth International Conference on I-SMAC (IoT in Social, Mobile, Analytics and Cloud) (I-SMAC). IEEE, 2020. http://dx.doi.org/10.1109/i-smac49090.2020.9243403.

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Pei, Yi. "GaN Technology for 5G Application." In 2019 International Conference on IC Design and Technology (ICICDT). IEEE, 2019. http://dx.doi.org/10.1109/icicdt.2019.8790871.

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Guan, Hao. "Key technology to 5G network." In 2015 Asia-Pacific Microwave Conference (APMC). IEEE, 2015. http://dx.doi.org/10.1109/apmc.2015.7411351.

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Adebusola, Joyce Ayoola, Adebiyi Ayodele Ariyo, Okeyinka Aderemi Elisha, Adebiyi Marion Olubunmi, and Okesola Olatunji Julius. "An Overview of 5G Technology." In 2020 International Conference in Mathematics, Computer Engineering and Computer Science (ICMCECS). IEEE, 2020. http://dx.doi.org/10.1109/icmcecs47690.2020.240853.

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Liu, Yuhan, Yong Tang, Jing Zhao, Oian Sun, Mengya Lv, and Liguo Yang. "5G+VR industrial technology application." In 2020 International Conference on Virtual Reality and Visualization (ICVRV). IEEE, 2020. http://dx.doi.org/10.1109/icvrv51359.2020.00090.

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Reports on the topic "5G technology"

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Rubin, Alex, Alan Omar Loera Martinez, Jake Dow, and Anna Puglisi. The Huawei Moment. Center for Security and Emerging Technology, July 2021. http://dx.doi.org/10.51593/20200079.

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For the first time, a Chinese company—Huawei—is set to lead the global transition from one key national security infrastructure technology to the next. How did Washington, at the beginning of the twenty-first century, fail to protect U.S. firms in this strategic technology and allow a geopolitical competitor to take a leadership position in a national security relevant critical infrastructure such as telecommunications? This policy brief highlights the characteristics of 5G development that China leveraged, exploited, and supported to take the lead in this key technology. The Huawei case study is in some ways the canary in the coal mine for emerging technologies and an illustration of what can happen to U.S. competitiveness when China’s companies do not have to base decisions on market forces.
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