292 research outputs found

    A New RF Satellite Link Analyzing and Antenna Effect on Satellite Communication

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    Satellite communications (SatComs) recently, have admitted as a new technological advances that attracted and raised special investment and ventures. Space communication technology has found many application areas from costly, one-of-a-sort structures, to utilize again of technology on sequential tasks, to the progress of canonical protocols accepted by space agencies of lots of countries. Satellite communication has accepted as one of the important technologies for 5G backhauling, particularly on bandwidth request increased in 5G mobile broad band (eMBB) applications. This paper presents the efficiency of the satellite communication system using 16 QAM digital modulation technique for the X band. This digital modulation method presents high data rate in transmission without raising the bandwidth compared with other digital modulation methods. Applications are realized in Matlab environment and obtained conclusions are discussed such as power spectrum diagrams, constellation schemas and BER ratio for several bands such as 4, 8, 12, 16 GHz

    Design and performance analysis of human body communication digital transceiver for wireless body area network applications

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    Wireless body area network (WBAN) is a prominent technology for resolving health-care concerns and providing high-speed continuous monitoring and real-time help. Human body communication (HBC) is an IEEE 802.15.6 physical layer standard for short-range communications that is not reliant on radio frequency (RF). Most WBAN applications can benefit from the HBC's low-latency and low-power architectural features. In this manuscript, an efficient digital HBC transceiver (TR) hardware architecture is designed as per IEEE 802.15.6 standard to overcome the drawbacks of the RF-wireless communication standards like signal leakage, on body antenna and power consumption. The design is created using a frequency selective digital transmission scheme for transmitter and receiver modules. The design resources are analyzed using different field programmable gate array (FPGA) families. The HBC TR utilizes <1% slices, consumes 101 mW power, and provides a throughput of 24.31 Mbps on Artix-7 FPGA with a latency of 10.5 clock cycles. In addition, the less than 10-4bit error rate of HBC is achieved with a 9.52 Mbps data rate. The proposed work is compared with existing architectures with significant improvement in performance parameters like chip area, power, and data rate

    Digital System Design - Use of Microcontroller

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    Embedded systems are today, widely deployed in just about every piece of machinery from toasters to spacecraft. Embedded system designers face many challenges. They are asked to produce increasingly complex systems using the latest technologies, but these technologies are changing faster than ever. They are asked to produce better quality designs with a shorter time-to-market. They are asked to implement increasingly complex functionality but more importantly to satisfy numerous other constraints. To achieve the current goals of design, the designer must be aware with such design constraints and more importantly, the factors that have a direct effect on them.One of the challenges facing embedded system designers is the selection of the optimum processor for the application in hand; single-purpose, general-purpose or application specific. Microcontrollers are one member of the family of the application specific processors.The book concentrates on the use of microcontroller as the embedded system?s processor, and how to use it in many embedded system applications. The book covers both the hardware and software aspects needed to design using microcontroller.The book is ideal for undergraduate students and also the engineers that are working in the field of digital system design.Contents• Preface;• Process design metrics;• A systems approach to digital system design;• Introduction to microcontrollers and microprocessors;• Instructions and Instruction sets;• Machine language and assembly language;• System memory; Timers, counters and watchdog timer;• Interfacing to local devices / peripherals;• Analogue data and the analogue I/O subsystem;• Multiprocessor communications;• Serial Communications and Network-based interfaces

    Storia delle telecomunicazioni

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    Focusing on the history of scientific and technological development over recent centuries, the book is dedicated to the history of telecommunications, where Italy has always been in the vanguard, and is presented by many of the protagonists of the last half century. The book is divided into five sections. The first, dealing with the origins, starts from the scientific bases of the evolution of telecommunications in the nineteenth century (Bucci), addressing the developments of scientific thought that led to the revolution of the theory of fields (Morando), analysing the birth of the three fundamental forms of communication – telegraph (Maggi), telephone (Del Re) and radio (Falciasecca) – and ending with the contribution made by the Italian Navy to the development of telecommunications (Carulli, Pelosi, Selleri, Tiberio). The second section, on technical and scientific developments, presents the numerical processing of signals (Rocca), illustrating the genesis and metamorphosis of transmission (Pupolin, Benedetto, Mengali, Someda, Vannucchi), network packets (Marsan, Guadagni, Lenzini), photonics in telecommunications (Prati) and addresses the issue of research within the institutions (Fedi-Morello), dwelling in particular on the CSELT (Mossotto). The next section deals with the sectors of application, offering an overview of radio, television and the birth of digital cinema (Vannucchi, Visintin), military communications (Maestrini, Costamagna), the development of radar (Galati) and spatial telecommunications (Tartara, Marconicchio). Section four, on the organisation of the services and the role of industry, outlines the rise and fall of the telecommunications industries in Italy (Randi), dealing with the telecommunications infrastructures (Caroppo, Gamerro), the role of the providers in national communications (Gerarduzzi), the networks and the mobile and wireless services (Falciasecca, Ongaro) and finally taking a look towards the future from the perspective of the last fifty years (Vannucchi). The last section, dealing with training and dissemination, offers an array of food for thought: university training in telecommunications, with focus on the evolution of legislation and on the professional profiles (Roveri), social and cultural aspects (Longo and Crespellani) as well as a glance over the most important museums, collections and documentary sources for telecommunications in Italy (Lucci, Savini, Temporelli, Valotti). The book is designed to offer a compendium comprising different analytical approaches, and aims to foster an interest in technology in the new generations, in the hope of stimulating potentially innovative research

    Underwater Vehicles

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    For the latest twenty to thirty years, a significant number of AUVs has been created for the solving of wide spectrum of scientific and applied tasks of ocean development and research. For the short time period the AUVs have shown the efficiency at performance of complex search and inspection works and opened a number of new important applications. Initially the information about AUVs had mainly review-advertising character but now more attention is paid to practical achievements, problems and systems technologies. AUVs are losing their prototype status and have become a fully operational, reliable and effective tool and modern multi-purpose AUVs represent the new class of underwater robotic objects with inherent tasks and practical applications, particular features of technology, systems structure and functional properties

    NASA Near Earth Network (NEN) DVB-S2 Demonstration Testing for Enhancing Data Rates for CubeSat/SmallSat Missions

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    National Aeronautics and Space Administration (NASA) CubeSat/SmallSat missions are expected to grow rapidly in the next decade. As the number of spacecraft on a ground network grows, employing higher data rates could reduce loading by reducing the contact time per day required. CubeSats also need to communicate directly to earth from space from longer distances than low earth orbit (LEO). These challenges motivate the need for bandwidth and power efficient modulation and coding techniques. Today, Digital Video Broadcast, Satellite Second Generation (DVB-S2) is a communications standard for larger satellites. DVB-S2 uses power and bandwidth efficient modulation and coding techniques to deliver performance approaching Radio Frequency (RF) channel theoretical limits. NASA’s Near Earth Network (NEN) conducted a demonstration test at the Wallops Flight Facility in spring of 2019 for CubeSat/SmallSat missions for enhancing data rate performance in NASA’s S-band 5 MHz channel. The goal is to upgrade NEN with DVB-S2 to increase science data return and enable greater numbers of CubeSats. This paper presents the NEN DVB-S2 demonstration testing objectives and performance measurement results. Results of the demonstration testing are compared with evolving SmallSat/CubeSat radios. DVB-S2 S-band transmitter development concepts for SmallSats/CubeSats and use of DVB-S2 by future missions are discussed

    Estudio y diseño de dos placas de intercambio de datos de inclinación y posición entre dos cubesats

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    El grupo de investigación DISEN con sede en el Campus de Terrassa de la UPC está intentando impulsar el proyecto de la implementación de una infraestructura de comunicaciones basada en el enlace óptico de CubeSats. Mediante este tipo de comunicación, se podría obtener un mayor data-rate y un menor consumo de potencia que en los actuales sistemas de radiofrecuencia. Para poder realizar este enlace óptico, es necesario que el rayo láser proveniente de uno de los satélites se centre de forma muy precisa en el foto-detector del otro satélite. Para realizar dicho centrado, ambos satélites deberán conocer a priori la posición e inclinación de ambos, información que deberán intercambiarse mediante radiofrecuencia. El presente TFG versa sobre el diseño del subsistema de intercambio de datos de posición e inclinación entre dos CubeSats. Concretamente, el diseño de dos placas PCB formadas por un módulo GPS, para obtener la posición de los CubeSats; un módulo IMU, para obtener sus actitudes; un módulo de radio UHF, para enviar datos entre los dos CubeSats por radiofrecuencia; y un módulo Bluetooth para poder enlazar el sistema con el ordenador de base. Además, las placas cuentan con un microcontrolador para procesar y almacenar la información de dichos módulos

    Fronthaul C-RAN baseado em ethernet

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    For the last decade mobile data traffic has been increasing at impressive rates. The proliferation of mobile devices together with high-bandwidth services like video and music streaming, social media and other cloud services have increased the load on top of the mobile network infrastructure. In order to support this massive increase in both users and bandwidth the next generation of mobile telecommunications network - 5G - explores new approaches, like the utilization of new frequency bands and the densification of base stations. This kind of requirements along with the inefficiency of the co-location of base band processing near the radio units encourages a rethink of traditional radio access networks. In this scenario emerges the C-RAN paradigm that intend to centralize all the base band processing (BBU) and replace current base stations for simpler, more efficient and compact solutions that only incorporate the radio front-end and respective radio processing (RRH). In addition to these benefits, centralized processing facilitates virtualization and resource sharing, interference management and cooperative processing technologies. This split of functions brings however, some challenges in respect to the data rates, bandwidth and latency in the link that connects BBUs and RRHs - the fronthaul. Today’s existing standards like CPRI weren’t originally designed for such applications and present some intrinsic bandwidth and flexibility limitations. It’s considered that another approach, based on packet switching, could mitigate some of these problems in addition to bring some advantages such as statistical multiplexing, flexible routing and compatibility with current widespread packet switching networks. They do however, present a number of challenges regarding latency and synchronization. This dissertation work focuses on the study and development of a fronthaul solution based in 10 Gigabit Ethernet over optical fiber. Development is done on top of two development kits based in Field Programmable Gate Array (FPGA) and implemented in an already operational C-RAN test-bed - currently with CPRI based fronthaul - at the Instituto de Telecomunicações - Aveiro.Durante a última década o tráfego de dados móveis tem aumentado a um ritmo impressionante. A proliferação de dispositivos móveis juntamente com serviços consumidores de grande largura de banda como streaming de vídeo e música, redes sociais e serviços na cloud têm colocado grande pressão na infraestrutura da rede móvel. Para suportar este aumento massivo de utilizadores e largura de banda a próxima geração de telecomunicações móveis – o 5G – explora novos conceitos, entre eles a utilização de bandas de frequências mais elevadas e a massificação das estações base. A este tipo de requisitos junta-se o facto da ineficiência da co-localização do processamento junto da unidade de rádio que incentiva a uma restruturação da arquitectura tradicional das redes móveis. Neste cenário surge o paradigma C-RAN, que pretende centralizar todo o processamento em banda base (BBU) e substituir as base stations atuais por soluções mais simples, eficientes e compactas que englobam apenas o processamento da parte de rádio e respetivo front-end de rádio frequência (RRH). Para além destes beneficios, a centralização do processamento facilita a virtualização e partilha de recursos, a gestão da interferência e tecnologias de processamento cooperativo. Esta divisão de funções traz no entanto alguns desafios no que diz respeito a largura de banda, taxas de dados e latências na interligação entre BBUs e RRHs – o fronthaul. Standards atualmente utilizados no link de fronthaul como o CPRI não foram originalmente desenhados para aplicações desta dimensão e apresentam algumas limitações, sendo intrinsecamente pouco flexíveis e eficientes. Acredita-se que outro tipo de abordagem, baseada em comutação de pacotes, poderia mitigar alguns destes problemas para além de trazer vantagens como a multiplexagem estatística, routing flexível e compatibilidade com redes de comutação de pacotes actuais. Apresentam no entanto vários desafios a nível de latência e sincronização associados. Este trabalho de dissertação foca-se então no estudo e desenvolvimento de uma solução para o fronthaul baseada em 10 Gigabit Ethernet sobre fibra ótica. O desenvolvimento será feito em dois kits de desenvolvimento baseados em Field Programmable Gate Array (FPGA) e implementado num demonstrador C-RAN já operacional - com fronthaul atualmente baseado em CPRI - no Instituto de Telecomunicações de Aveiro.Mestrado em Engenharia Eletrónica e Telecomunicaçõe
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