The Coverage, Capacity and Coexistence of Mixed High Altitude Platform and Terrestrial Segments

This thesis explores the coverage, capacity and coexistence of High Altitude Platform (HAP) and terrestrial segments in the same service area. Given the limited spectrum available, mechanisms to manage the co-channel interference to enable effective coexistence between the two infrastructures are examined. Interference arising from the HAP, caused by the relatively high transmit power and the antenna beam profile, has the potential to significantly affect the existing terrestrial system on the ground if the HAP beams are deployed without a proper strategy. Beam-pointing strategies exploiting phased array antennas on the HAPs are shown to be an effective way to place the beams, with each of them forming service cells onto the ground in the service area, especially dense user areas. Using a newly developed RF clustering technique to better point the cells over an area of a dense group of users, it is shown that near maximum coverage of 96% of the population over the service area can be provided while maintaining the coexistence with the existing terrestrial system. To improve the user experience at the cell edge, while at the same time improving the overall capacity of the system, Joint Transmission – Coordinated Multipoint (JT-CoMP) is adapted for a HAP architecture. It is shown how the HAP can potentially enable the tight scheduling needed to perform JT-CoMP due to the centralisation of all virtual E-UTRAN Node Bs (eNodeBs) on the HAP. A trade-off between CINR gain and loss of capacity when adapting JT-CoMP into the HAP system is identified, and strategies to minimise the trade-off are considered. It is shown that 57% of the users benefit from the JT-CoMP. In order to enable coordination between the HAP and terrestrial segments, a joint architecture based on a Cloud – Radio Access Network (C-RAN) system is introduced. Apart from adapting a C-RAN based system to centrally connect the two segments together, the network functional split which varies the degree of the centralised processing is also considered to deal with the limitations of HAP fronthaul link requirements. Based on the fronthaul link requirements acquired from the different splitting options, the ground relay station diversity to connect the HAP to centralised and distributed units (CUs and DUs) is also considered

A Vision and Framework for the High Altitude Platform Station (HAPS) Networks of the Future

A High Altitude Platform Station (HAPS) is a network node that operates in the stratosphere at an of altitude around 20 km and is instrumental for providing communication services. Precipitated by technological innovations in the areas of autonomous avionics, array antennas, solar panel efficiency levels, and battery energy densities, and fueled by flourishing industry ecosystems, the HAPS has emerged as an indispensable component of next-generations of wireless networks. In this article, we provide a vision and framework for the HAPS networks of the future supported by a comprehensive and state-of-the-art literature review. We highlight the unrealized potential of HAPS systems and elaborate on their unique ability to serve metropolitan areas. The latest advancements and promising technologies in the HAPS energy and payload systems are discussed. The integration of the emerging Reconfigurable Smart Surface (RSS) technology in the communications payload of HAPS systems for providing a cost-effective deployment is proposed. A detailed overview of the radio resource management in HAPS systems is presented along with synergistic physical layer techniques, including Faster-Than-Nyquist (FTN) signaling. Numerous aspects of handoff management in HAPS systems are described. The notable contributions of Artificial Intelligence (AI) in HAPS, including machine learning in the design, topology management, handoff, and resource allocation aspects are emphasized. The extensive overview of the literature we provide is crucial for substantiating our vision that depicts the expected deployment opportunities and challenges in the next 10 years (next-generation networks), as well as in the subsequent 10 years (next-next-generation networks).Comment: To appear in IEEE Communications Surveys & Tutorial

5G: 2020 and Beyond

The future society would be ushered in a new communication era with the emergence of 5G. 5G would be significantly different, especially, in terms of architecture and operation in comparison with the previous communication generations (4G, 3G...). This book discusses the various aspects of the architecture, operation, possible challenges, and mechanisms to overcome them. Further, it supports users? interac- tion through communication devices relying on Human Bond Communication and COmmunication-NAvigation- SENsing- SErvices (CONASENSE).Topics broadly covered in this book are; • Wireless Innovative System for Dynamically Operating Mega Communications (WISDOM)• Millimeter Waves and Spectrum Management• Cyber Security• Device to Device Communicatio

5G: 2020 and Beyond

The future society would be ushered in a new communication era with the emergence of 5G. 5G would be significantly different, especially, in terms of architecture and operation in comparison with the previous communication generations (4G, 3G...). This book discusses the various aspects of the architecture, operation, possible challenges, and mechanisms to overcome them. Further, it supports users? interac- tion through communication devices relying on Human Bond Communication and COmmunication-NAvigation- SENsing- SErvices (CONASENSE).Topics broadly covered in this book are; • Wireless Innovative System for Dynamically Operating Mega Communications (WISDOM)• Millimeter Waves and Spectrum Management• Cyber Security• Device to Device Communicatio

New Radio Small Cell Propagation Environment

The characterization of the wireless medium in indoor small cell networks is essential to obtain appropriate modelling of the propagation environment. This dissertation on ”MeasurementBased Characterization of the 5G New Radio Small Cell Propagation Environment” has been developed in an experimental environment. The underlying tasks are divided into three phases. The first phase took place in the laboratory of the Instituto de Telecomunicações – Covilhã, located in the Departamento de Engenharia Electromecânica of Universidade da Beira Interior. During this part of the research, spectrum measurements and the characterization of the S11 parameter (response in the first port for the signal incident in the first port) have been made experimentally through the printed circuit board antennas in the 2.6 GHz and 3.5 GHz frequency bands operating in the 2.625 GHz and 3.590 GHz center frequency, manufactured by us. The fabrication of the antennas was preceded by the simulation in the student version CST STUDIO software. In this phase, the spectrum measurements and the characterization of Smith Chart have been made to measure gain and impedance using the Rohde & Schwarz Vector Network Analyzer (VNA) from IT laboratory. Based on mathematical calculations and considerations on the conductivity and permeability of the environment, the antennas were built for use in indoor and outdoor environments. The developed antennas are characterized by their bandwidth and their radiation characteristics. The second phase took place in the three rooms adjacent to the laboratory, in which the srsLTE emulation software was applied to the 4G indoor scenario. The experimental setup includes three elements, namely a base station (BS or 4G eNodeB), which transmits the communication signal and which served as a signal source, a user equipment (UE), and an interfering eNodeB. The size of each room is 7.32 × 7.32 square meters. While room 1 is the room of interest, where theoretical and practical measurements took place, BSs that act as wireless interfering nodes are also separately considered either in room 2 or room 3. By varying the UE positions within room 1, it was possible to verify that the highest values of the received power occur close to the central BS. However, the received power does not decrease suddenly because of the reduced gain in the radiation pattern in the back part of the antenna. In addition, it was demonstrated that there is an effect of “wall loss”proven by the path loss increase between room 1 and room 2 (or between room 2 and 3). If we consider an attenuation for each wall of circa 7-9 dB the trend of the WINNER II at 2.625 GHz model for the interference coming across different walls is verified. Future work includes to investigate the 3.5 GHz frequency band. The third phase is being carried out at the facilities of the old aerodrome of Covilhã which, using a temporary license assigned to us by Instituto de Comunicações Português (ICP-ANACOM) as the two first phases. The aim of this phase is to investigate the two-slope behaviour in the UMi scenario. Very initial LTE-Advanced tests have been performed to verify the propagation of the two ray (with a reflection in the asphalt) from BS implemented with USRP B210 and srsLTE system by considering an urban cell with a length of 80 m and an interfering base station at 320 m, at 2500 - 2510 MHz (DL - Downlink) by now, mainly due to the current availability of a directional antenna in this specific band.A investigação de sinais rádio em comunicações sem fios continua a gerar considerável interesse em todo mundo, devido ao seu amplo leque de aplicações, que inclui a troca de dados entre dois ou mais dispositivos, comunicações móveis e via Wi-Fi, infravermelho, transmissão de canais de televisão, monitorização de campos, proteção e vigilância costeira e observação ambiental para exploração. A tecnologia de ondas de rádio é o um dos vários recursos que viabilizam as comunicações de alta velocidade e encurta distâncias entre dois pontos em comunicação. Na realidade, caracterização da comunicação em redes com pequenas células é essencial para obter uma modelização apropriada de ambiente de propagação. Esta dissertação sob o tema ”Measurement-Based Characterization of the 5G New Radio Small Cells Propagation Envioronment” foi desenvolvida num ambiente experimental, cujas tarefas foram divididas em fases. A primeira fase teve lugar no laboratório do Instituto de Telecomunicações da Covilhã (IT), afeto ao Departamento de Engenharia Eletromecânica. Nela foram feitas as simulações das antenas no software CST STUDIO, versão do estudante que foram utilizadas nos equipamentos durante as medições. Seguiu-se a padronização das mesmas nas faixas dos 2.6 GHz e 3.5 GHz, nas frequências centrais de 2.625 GHz e 3.590 GHZ, usando placas de circuitos impressos. Em seguida, foram feitas as medições do espectro e a caraterização do S11 e da carta de Smith para medir a impedância de entrada e o ganho. As medições foram feitas com recurso ao Vector Network Analyzer (VNA). Com base em cálculos matemáticos e considerações sobre a condutividade e permeabilidade do ambiente, as antenas foram construídas para uso em ambientes internos e externos e com ou sem interferentes. As antenas desenvolvidas são caracterizadas por sua largura de banda e suas características de radiação. A segunda fase decorreu nas três salas adjacentes ao laboratório de Telecomunicações, na qual foi montada a topologia com o sistema srsLTE associado aos USRP B210 ligados aos computadores com o sistema operativo Linux com três componentes, nomeadamente uma estação base (BS), que serviu de fonte do sinal de comunicação com um equipamento de utilizador (UE) que o recebe, e dois interferentes. Importa realçar que esta segunda fase foi dividida em duas etapas, das quais uma sem interferente para medir a potência recebida da própria estação base e outra com os interferentes mais próximo e mais afastado da sala do sinal da própria célula. O objetivo desta fase foi o de verificar o modelo de propagação do sinal de comunicação da tecnologia LTE e medir a potência recebida pelo utilizador com recurso ao Analisador de Espectro portátil FSH8 da Rohde & Schwarz capaz de medir de 10 kHz a 8 GHz, feita na frequência central de 2.625 GHz. Nas medições feitas em ambiente interior, o tamanho de cada uma das três salas é 7.32 × 7.32 metros quadrados. Embora a sala 1 seja a sala de interesse, onde ocorreram as medições teóricas e práticas, as BSs que atuam como nós interferentes também são consideradas separadamente na sala 2 ou na sala 3. Ao variar as posições de UE dentro da sala 1, foi possível verificar que os valores superiores da potência recebida ocorrem próximos à BS central. No entanto, a potência recebida não diminui repentinamente por causa do efeito do ganho reduzido no diagrama de radiação na parte traseira da antena. Além disso, foi demonstrado que existe um efeito de “atenuação da parede” comprovado pelo aumento da atenuação de trajeto entre a sala 1 e a sala 2 (ou entre a sala 2 e 3). Se considerarmos uma atenuação para cada parede de cerca de 7-9 dB, verifica-se a tendência do modelo WINNER II a 2.625 GHz para a interferência que atravessa as diversas paredes. Trabalhos futuros incluem a investigação da banda de frequência de 3.5 GHz. Já a terceira fase foi realizada nas instalações do antigo aeródromo da Covilhã, e em todas as fases servimo-nos de uma licença concedida pela Entidade Reguladora do Espectro (ICPANACOM), que permitiu realizar testes de verificação da propagação do sinal no ambiente livre na faixa de frequência dos 2.6 GHz com 2500 – 2510 MHz (UL - Uplink) e 2620 – 2630 MHz (DL - Downlink). A terceira fase ainda está a decorrer nas instalações do antigo aeródromo da Covilhã, mediante a mesma licença temporária que nos foi atribuída pelo Instituto de Comunicações de Portugal ou Autoridade Nacional de Comunicações (ICP-ANACOM) sendo esta reguladora do espectro. O objetivo é continuar a investigar o comportamento de duas inclinações no cenário UMi. Testes muito iniciais LTE-Advanced foram realizados para verificar a propagação dos dois raios (direto e refletido, com uma reflexão no asfalto) do BS implementado com o sistema USRP B210 e srsLTE, considerando uma célula urbana com um comprimento de 80 metros uma estação base interferente em 320 metros, a operar, provisoriamente, a 2500 - 2510 MHz (na ligação descendente, DL - Downlink, devido à disponibilidade de uma antena direcional específica para esta banda). Finalmente este trabalho de investigação pode ser resumidamente dividido em três categorias, nomeadamente investigação de análises teóricas e matemáticas relevantes da propagação de ondas de rádio em meios com e sem interferência significativa. Medições para verificar o comportamento do sinal de propagação da tecnologia LTE-Advanced com recursos ao analisador de espectro, simulação das antenas, fabricação e medição das características de radiação das mesmas. Assim, as antenas concebidas com bons resultados foram fabricadas nas instalações da Faculdade de Ciências no Departamento de Física da Universidade da Beira Interior, sendo de seguidas testadas e caracterizadas com o auxílio do Vector Nettwork Analyzer disponível no Laboratório de Telecomunicações do Departamento de Engenharia Eletromecânica da Universidade da Beira Interior. E, finalmente, os cálculos estatísticos que incluem o teste de normalidade de Kolmogorov-Smirnov com recurso ao software estatístico SPSS para validar os resultados obtidos seguida da construção dos gráficos no Matlab em 3D, conforme a superfície da sala

AERO|ASTRO Architecture: the hybridizing frontier of emergent industries

Architectural designers often need to strike an uneasy balance between idealism and reality. Under most circumstances, architects are restricted by clients, budgets, and available technologies. However, divorced from traditional constraints, visionary concepts of new dwellings, new cities, and new “worlds” will spark greater forms of innovation and drive creativity for future generations. The exploration of new spatial boundaries and conceptual environments for design will irrevocably alter the human experience while adapting new challenging roles for future architects. Architecture can be understood in part as the art of organizing spaces through the manipulation of materials and forms. Designed spaces are arranged to provide unique sensory reactions for their occupants while emotionally and physically orientating them on Earth. As a catalyst towards the awareness of one’s surroundings, architecture has always had to contend with the many limiting factors imposed by the forces on Earth. These include, but are not limited to, gravity and climate. On Earth, structurally sound construction is limited by the forces of gravity as it influences design capabilities by standardizing forms, functions, and structural elements of architectural spaces. New design challenges and opportunities arrive when we look to create structures outside of Earth’s boundaries. This thesis proposes a futuristic model of an efficient and unique passenger transport system that connects Earth-based hybrid air/space ports with an outer space orbital infrastructural hub. This modern intervention will allow for new outer space industries, such as transit, tourism, and hospitality, which will provide unique opportunities for the future of humanity. Additionally, the thesis studies the positive architectural and experiential potentials for the future living occupancy of outer space. In recognizing the financial and logistical limitations of current space constructions, such as the International Space Station, the thesis looks beyond the limitations of current technologies and towards designs that are driven by the fulfillment of human experiences in space. Life in space, the thesis envisions, will spark new human experiences and rituals while necessitating new forms and designs in architecture. Weightlessness and its related spatial disorientations, in addition to the many other unique conditions in this unfamiliar territory, will inspire a new conceptual language for architecture and human cultures. The thesis will demonstrate that spaces designed for extraterrestrial experiences can be innovatively dynamic as they respond to new cultures and activities that evolve as a reaction to extreme conditions. Introducing humans to the environs of orbital space will be the initial stage in a long-term phasing tactic to colonize and commercialize beyond the expanse of Earth, eventually extending humanity to the remote neighbouring planets of the universe

Use of multimedia services within ubiquitous environments: The role of place in the usage process of mobile data services

Recently, there have been rapid developments in the fields of mobile and wireless technologies which have enabled the acquisition of information at anytime regardless of the location and mobility status of the users. However, despite the increasing popularity of mobile devices which are becoming an indispensable part of our everyday activities, the disappointing results regarding the adoption and use of mobile applications and data services lead scholars to question the understanding of the adoption and usage behaviour within these new wireless environments. The author believes that there could be attributes which are still unexplored and could provide an explanation why the mobile data services are still unsuccessful. The aim of this study is to explore, understand and highlight the role of place in the decision of the people to use mobile data services and thus to assist professionals and scholars to consider the importance of the attributes of place in the design of new applications and in the adoption and usage models of mobile technologies and services. In order to achieve this objective an exploratory in nature research was conducted combining conventional and innovative research methodologies. A model of place was generated which served as a sensitizing device in order to interpret, and analyse the collected data. The first phase of this research involved the understanding of the market in question and the selection of the appropriate case (mobile data services platform) to conduct the research. The second main phase of the research then sought to get a better understanding of how users experience place before deciding to use mobile data services. The research methods were applied within everyday settings with 30 users of the selected mobile data services platform, all of whom were selected according to specific criteria. The findings tend to suggest that participants did experience the different places in a similar way before deciding to use mobile data services.EThOS - Electronic Theses Online ServiceGBUnited Kingdo