Distributed hybrid beamforming for cooperative millimeter-wave cell-free massive MIMO
| Main Author: | |
|---|---|
| Publication Date: | 2022 |
| Format: | Master thesis |
| Language: | eng |
| Source: | Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) |
| Download full: | http://hdl.handle.net/10773/39377 |
Summary: | With the constant growing demands from users in terms of data rates, coverage and support to Internet of Things (IoT) devices, beyond 5G networks will enable a more human-friendly society with improved capacities to cope with users requirements. Cell-Free networks appear as promising concept for future wireless communications with the main goal of providing a uniform service within the coverage area. This is possible through the several distributed cooperating antennas in a geographic area, where cell-edges are eliminated thus reliving the network from inter-cell interference. Further, the integration of massive MIMO technology in the context of Cell-Free networks will bring a huge performance improvement when compared to co-located massive MIMO in traditional cell based systems. In addition, the integration of massive MIMO with the millimeter wave band requires a new architecture design to overcome the constraints of a high frequency transmission where higher path losses and a lower energy efficiency are observed. Hence, hybrid analog-digital beamforming is suggested taking advantage of both gains from analog and digital precoding reducing implementation costs, overall system complexity and improving the energy efficiency. This dissertation comprises the design and implementation of a downlink mmWave Cell-Free mMIMO with hybrid beamforming considering a distributed architecture. This architecture is characterized by splitting the data processing between the CU and the APs. Then, three scenarios were evaluated regarding the variation of the number of deployed antennas and the number of Access Point (AP)s. Also, two beamforming techniques were proposed and evaluated considering different levels of Channel State Information (CSI). The first contemplates random angles between APs and User Terminal (UT)s. The second considers the knowledge of average Angle of Departure/Arrival between APs and User Terminal (UT)s. The distributed architecture performance was compared with the centralized counterpart and the results show that the system performance is boosted when the APs are alleviated from signal processing tasks, therefore proving that the centralized architecture provides better results. Further conclusions from the results show that when the number of APs are increased, a higher diversity gain is achieved thus eliminating interference. |
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Distributed hybrid beamforming for cooperative millimeter-wave cell-free massive MIMOBeyond 5GMassive MIMOHybrid analog-digital systemsBeamformingCell-FreeMillimeter WavesWith the constant growing demands from users in terms of data rates, coverage and support to Internet of Things (IoT) devices, beyond 5G networks will enable a more human-friendly society with improved capacities to cope with users requirements. Cell-Free networks appear as promising concept for future wireless communications with the main goal of providing a uniform service within the coverage area. This is possible through the several distributed cooperating antennas in a geographic area, where cell-edges are eliminated thus reliving the network from inter-cell interference. Further, the integration of massive MIMO technology in the context of Cell-Free networks will bring a huge performance improvement when compared to co-located massive MIMO in traditional cell based systems. In addition, the integration of massive MIMO with the millimeter wave band requires a new architecture design to overcome the constraints of a high frequency transmission where higher path losses and a lower energy efficiency are observed. Hence, hybrid analog-digital beamforming is suggested taking advantage of both gains from analog and digital precoding reducing implementation costs, overall system complexity and improving the energy efficiency. This dissertation comprises the design and implementation of a downlink mmWave Cell-Free mMIMO with hybrid beamforming considering a distributed architecture. This architecture is characterized by splitting the data processing between the CU and the APs. Then, three scenarios were evaluated regarding the variation of the number of deployed antennas and the number of Access Point (AP)s. Also, two beamforming techniques were proposed and evaluated considering different levels of Channel State Information (CSI). The first contemplates random angles between APs and User Terminal (UT)s. The second considers the knowledge of average Angle of Departure/Arrival between APs and User Terminal (UT)s. The distributed architecture performance was compared with the centralized counterpart and the results show that the system performance is boosted when the APs are alleviated from signal processing tasks, therefore proving that the centralized architecture provides better results. Further conclusions from the results show that when the number of APs are increased, a higher diversity gain is achieved thus eliminating interference.Com as constantes e crescentes exigências dos utilizadores em termos de taxas de dados, cobertura e suporte a dispositivos IoT, os futuros sistemas pós 5G ou 6G permitirão uma sociedade mais próxima do ser humano, com capacidades melhoradas para lidar com os requisitos dos utilizadores. As redes Cell-Free são um conceito promissor para as futuras comunicações sem fios sendo o principal objetivo fornecer um serviço uniforme sobre a área de cobertura. Isto só é possível através da distribuição de várias ante- nas cooperando entre si numa área geográfica, onde os limites celulares são eliminados, mitigando as interferências entre células vizinhas. Além disso, a integração da tecnologia MIMO massiva no contexto das redes Cell-Free trará uma enorme melhoria de desempenho quando comparada com a tecnologia MIMO massiva co-localizada em sistemas tradicionais baseados em células. Adicionalmente, a integração de MIMO massiva com a banda de ondas milimétricas requer um novo design de arquitetura para superar os constrangimentos de uma transmissão de alta frequência onde são observadas perdas de percurso mais elevadas e uma menor eficiência energética. Assim, sugere-se o uso de arquiteturas analógico digital híbridas com modelação de feixe que tire partido dos ganhos tanto da pre-codificação analógica como da pre-codificação digital e, ao mesmo tempo, da redução dos custos de implementação, da reduzida complexidade geral do sistema, assim como uma melhoria da eficiência energética. Esta dissertação compreende o projeto e implementação de um sistema mMIMO Cell-Free no sentido descendente (downlink) na banda das ondas milimétricas com arquitetura híbrida e modelação de feixe. Foram então avaliados três cenários no que diz respeito à variação do número de antenas implementadas e ao número de APs. Além disso, foram propostas e avaliadas duas técnicas de modelação de feixes, considerando diferentes níveis de informação do estado do canal. O primeiro contempla ângulos aleatórios entre APs e UTs. O segundo considera o conhecimento do ângulo médio de partida/chegada entre os APs e os UTs. Os resultados demonstram que aumentando o número de APs, um ganho de diversidade é alcançado, eliminando assim a interferência.2023-09-13T13:24:30Z2022-12-14T00:00:00Z2022-12-14info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfhttp://hdl.handle.net/10773/39377engLemos, Rui Jorge Barreto Sáinfo:eu-repo/semantics/openAccessreponame:Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)instname:FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiainstacron:RCAAP2024-05-06T04:49:32Zoai:ria.ua.pt:10773/39377Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireinfo@rcaap.ptopendoar:https://opendoar.ac.uk/repository/71602025-05-28T14:21:32.316489Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) - FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiafalse |
| dc.title.none.fl_str_mv |
Distributed hybrid beamforming for cooperative millimeter-wave cell-free massive MIMO |
| title |
Distributed hybrid beamforming for cooperative millimeter-wave cell-free massive MIMO |
| spellingShingle |
Distributed hybrid beamforming for cooperative millimeter-wave cell-free massive MIMO Lemos, Rui Jorge Barreto Sá Beyond 5G Massive MIMO Hybrid analog-digital systems Beamforming Cell-Free Millimeter Waves |
| title_short |
Distributed hybrid beamforming for cooperative millimeter-wave cell-free massive MIMO |
| title_full |
Distributed hybrid beamforming for cooperative millimeter-wave cell-free massive MIMO |
| title_fullStr |
Distributed hybrid beamforming for cooperative millimeter-wave cell-free massive MIMO |
| title_full_unstemmed |
Distributed hybrid beamforming for cooperative millimeter-wave cell-free massive MIMO |
| title_sort |
Distributed hybrid beamforming for cooperative millimeter-wave cell-free massive MIMO |
| author |
Lemos, Rui Jorge Barreto Sá |
| author_facet |
Lemos, Rui Jorge Barreto Sá |
| author_role |
author |
| dc.contributor.author.fl_str_mv |
Lemos, Rui Jorge Barreto Sá |
| dc.subject.por.fl_str_mv |
Beyond 5G Massive MIMO Hybrid analog-digital systems Beamforming Cell-Free Millimeter Waves |
| topic |
Beyond 5G Massive MIMO Hybrid analog-digital systems Beamforming Cell-Free Millimeter Waves |
| description |
With the constant growing demands from users in terms of data rates, coverage and support to Internet of Things (IoT) devices, beyond 5G networks will enable a more human-friendly society with improved capacities to cope with users requirements. Cell-Free networks appear as promising concept for future wireless communications with the main goal of providing a uniform service within the coverage area. This is possible through the several distributed cooperating antennas in a geographic area, where cell-edges are eliminated thus reliving the network from inter-cell interference. Further, the integration of massive MIMO technology in the context of Cell-Free networks will bring a huge performance improvement when compared to co-located massive MIMO in traditional cell based systems. In addition, the integration of massive MIMO with the millimeter wave band requires a new architecture design to overcome the constraints of a high frequency transmission where higher path losses and a lower energy efficiency are observed. Hence, hybrid analog-digital beamforming is suggested taking advantage of both gains from analog and digital precoding reducing implementation costs, overall system complexity and improving the energy efficiency. This dissertation comprises the design and implementation of a downlink mmWave Cell-Free mMIMO with hybrid beamforming considering a distributed architecture. This architecture is characterized by splitting the data processing between the CU and the APs. Then, three scenarios were evaluated regarding the variation of the number of deployed antennas and the number of Access Point (AP)s. Also, two beamforming techniques were proposed and evaluated considering different levels of Channel State Information (CSI). The first contemplates random angles between APs and User Terminal (UT)s. The second considers the knowledge of average Angle of Departure/Arrival between APs and User Terminal (UT)s. The distributed architecture performance was compared with the centralized counterpart and the results show that the system performance is boosted when the APs are alleviated from signal processing tasks, therefore proving that the centralized architecture provides better results. Further conclusions from the results show that when the number of APs are increased, a higher diversity gain is achieved thus eliminating interference. |
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2022 |
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2022-12-14T00:00:00Z 2022-12-14 2023-09-13T13:24:30Z |
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