[en] EFFECTS OF ATMOSPHERIC MULTIPATH IN LINE-OF -SIGHT MICROWAVE SYSTEMS / [pt] EFEITOS DE MULTIPERCURSOS ATMOSFÉRICOS EM ENLACES DE MICROONDAS EM VISIBILIDADE

ROQUE ANDRE CIUFO POEYS

20 December 2004

[pt] As variações que ocorrem na estrutura da troposfera ao longo do tempo em relação à sua condição mediana provocam diversos fenômenos que fazem variar aleatoriamente o nível de sinal recebido num enlace rádio. Estas variações aleatórias são denominadas desvanecimentos. Os desvanecimentos são normalmente classificados em rápidos e lentos. Os desvanecimentos rápidos estão geralmente associados ao efeito de multipercurso atmosférico que é fortemente dependente da freqüência, sendo por isto denominados desvanecimentos seletivos, e são a principal causa de degradação do desempenho de enlaces rádio digitais de alta capacidade. Os modelos existentes para a caracterização estatística do desvanecimento por multipercurso são semi-empíricos e baseados em dados experimentais obtidos em regiões de clima temperado, acarretando uma má estimativa quando aplicados a regiões de clima tropical e equatorial. Neste trabalho é apresentada uma avaliação dos métodos existentes para previsão do desempenho de enlaces rádio digitais de alta capacidade, a partir da utilização de dados reais de desempenho extraídos de medidas em um tronco rádio de alta capacidade numa região tropical. / [en] The variations which happen in the troposphere layers throughout the time in relation to the median condition of the signal cause various phenomena that change the received signal level at digital radio relay systems randomly. The random changes are named fading. Fading is normally classified as fast or slow. The former is normally associated with the atmospheric multipath propagation and is strongly dependent on frequency; therefore, this is named selective fading and it is normally the cause of performance degradation in high capacity digital radio relays. The existing models for statistics of multipath fading are semi - empirical and based on experimental data extracts from regions the climate of which is temperate; and this gives a rough estimate with respect to the tropical and equatorial zones. This work presents an evaluation of existing methods of performance prediction for high capacity digital radio relay systems using real performance data obtained from measures of a high capacity digital radio link in operation in the tropical region.

[pt] PROPAGACAO MULTIPERCURSO

[en] MULTIPATH PROPAGATION

[pt] DESVANECIMENTO SELETIVO

[en] SELECTIVE FADING

[pt] SISTEMA RADIO DIGITAL

[en] DIGITAL RADIO RELAY SYSTEMS

[pt] PREDICAO DE FALHA

[en] OUTAGE PREDICTION

Efficient multiuser cooperative relay communications employing layered modulations

Whang, Roderick Jaehoon

22 September 2011

Relay-assisted cooperative communications are promising solutions for error-performance improvement and cell coverage extension. In this thesis, we propose several efficient cooperative relay communication schemes. First, an efficient space-time coded cooperative relay communications scheme that employs linear precoding and transmission-pattern selection is proposed. This is built upon an existing block linear precoding technique for conventional multiple-input multiple-output systems in order to improve the diversity performance of a multihop relay network. Second, we consider several multiuser cooperative relay communication schemes employing layered modulations, such as hierarchical modulation and superposition coding. Conventional cooperative relay communication is effective in mitigating fading effects. However, additional resources, such as time slots or frequency bands are required for the relay, which reduce the overall throughput. Reduction of throughput will become more severe as the number of users increases. In order to overcome this limitation, multiuser cooperative relaying schemes that employ hierarchical modulation and superposition coding are proposed. These schemes exploit the superimposed message for users in the network and allow the system to transmit two or more independent data streams simultaneously. The proposed schemes do not require additional resources than the conventional schemes, while improving the error performance by flexibly controlling the power division coefficient of superposition coding or the distance parameter of hierarchical modulation. / Graduation date: 2012 / Access restricted to the OSU Community at author's request from Sept. 28, 2011 - Sept. 28, 2012

Cooperative Communications

Relay Communications

Layered Modulations

Hierarchical Modulation

Superposition Coding

Radio relay systems

Cell phone systems

Modulation (Electronics)

Telephone -- Multiplex systems

Wireless Channel Modeling, Simulation, and Estimation

Patel, Chirag S.

29 March 2006

Several emerging wireless communication systems require direct transmission between mobile terminals to support efficient data transfer and user mobility. Such mobile-to-mobile communication systems differ from the conventional cellular systems where only the user unit is mobile. In addition, there might be a relay, also called a repeater, between the original transmitter and the final receiver to improve the network range and coverage. Potential applications for mobile-to-mobile systems include Intelligent Highways for coordinated traffic control and ad-hoc networks meant for military and disaster management. Relays may be deployed in cellular networks and IEEE 802.16 mesh networks for wireless broadband access. Extensive research in cellular radio channels has led to the successful deployment of cellular networks. However, our knowledge of the radio channels encountered in mobile-to-mobile and relay-based systems is still inadequate. This forms the primary motivation behind our research in addressing wireless channel modeling, simulation, and estimation issues for these systems. Specifically, we investigate frequency-flat mobile-to-mobile channels and develop simulation models by using the sum-of-sinusoids method, which is widely used for cellular channels. In addition, we present the properties of amplify and forward relay channels via theoretical analysis. This analysis, to the best of our knowledge, is the first of its kind. Further, we address the unique challenges, which arise because of the different underlying channel model, for channel estimation in amplify and forward relay systems. Our work would provide other researchers the necessary tools for the design and testing of these emerging communication systems.

Mobile-to-mobile

Amplify and forward relay systems

Sum-of-sinusoids

Cellular telephone systems

Design and performance analysis of cooperative relay systems

Abadi, Tarla

January 2015

Cooperative relay systems have emerged as promising techniques to boost the performance of wireless systems. Recent studies have confirmed that interferences, co-channel interferences (CCIs) and self-interferences, have a huge impact on cooperative relay systems and can cause significant performance degradation. Two problems were observed in this research. Firstly, previous studies on performance analysis of Amplify-and-Forward (AF) relay systems in presence of CCIs have only focused on a specific interference channel model. However, in practical design scenarios, such an assumption is not a realistic proposition. Secondly, analyses of overheads introduced by a time-based relay selection protocol in distributed cooperative systems have been based on an over-pessimistic assumption where all packets involved in a collision are destroyed. Nevertheless, collisions due to the protocol overheads cause the system performance to be degraded but this does not mean that the failure of end-to-end transmission certainly occurs. The thesis aims to analyse the performance of practical cooperative relay systems in the presence of CCIs and self-interferences, by developing exact mathematical methods. A new unified mathematical method for AF relay systems in presence of a random number of arbitrary non-identical CCIs was developed. The obtained new approach derived in terms of a moment generating function of the aggregate interferences' power led to the derivation of new explicit expressions. The new results greatly simplify evaluation of average error rates over diverse practical interference scenarios. Moreover, a new exact mathematical analysis for distributed cooperative relay systems employing a time-based relay selection protocol based on an accurate interference model was presented. This approach led to the derivation of new exact expressions for the spectral efficiency which accounts for both self-interferences and the protocol overheads as well as for different fading scenarios and arbitrary relay locations. This approach provided several advantages over direct approaches, one of which is that it significantly simplified averaging-out the joint random variables involved.

621.382

Optimal Amplify-And-Forward Relaying For Cooperative Communications And Underlay Cognitive Radio

Sainath, B

04 1900

Relay-assisted cooperative communication exploits spatial diversity to combat wireless fading, and is an appealing technology for next generation wireless systems. Several relay cooperation protocols have been proposed in the literature. In amplify-and-forward (AF)relaying, which is the focus of this thesis, the relay amplifies the signal it receives from the source and forwards it to the destination. AF has been extensively studied in the literature on account of its simplicity since the relay does not need to decode the received signal. We propose a novel optimal relaying policy for two-hop AF cooperative relay systems. In this, an average power-constrained relay adapts its gain and transmit power to minimize the fading-averaged symbol error probability (SEP) at the destination. Next, we consider a generalization of the above policy in which the relay operates as an underlay cognitive radio (CR). This mode of communication is relevant because it promises to address the spectrum shortage constraint. Here, the relay adapts its gain as a function of its local channel gain to the source and destination and also the primary such that the average interference it causes to the primary receiver is also constrained. For both the above policies, we also present near-optimal, simpler relay gain adaptation policies that are easy to implement and that provide insights about the optimal policies. The SEPs and diversity order of the policies are analyzed to quantify their performance. These policies generalize the conventional fixed-power and fixed-gain AF relaying policies considered in cooperative and CR literature, and outperform them by 2.0-7.7 dB. This translates into significant energy savings at the source and relay, and motivates their use in next generation wireless systems.

Cognitive Radios

Wireless Communication

Cooperative Communication

Relay Networks (Communication)

Cognitive Radio Networks

Amplify-and-Forward (AF) Relaying

Optimal Relay Selection

Underlay Cognitive Radios

Radio Relay Systems

Cognitive Radio (CR)

Underlay Cognitive Radio Relay

Communication Engineering

On the performance analysis of full-duplex networks

Alves, Hirley

27 March 2015

Nesta tese estudamos redes cooperativas em modo de operação Full-Duplex (FD). Para tanto, usamos conceitos de teoria da informação e da comunicação, além de estatística aplicada. Assim, fornecemos uma extensa análise de desempenho de sistemas cooperativos em modo FD. Além disso, demonstramos que a operação de relays em modo FD é possível, mesmo sofrendo intensos níveis de auto-interferência. Mostramos também sua aplicação em diversos cenários. Ademais, os resultados obtidos através deste trabalho servem como referência para o design e desenvolvimento de futuras tecnologias de comunicação sem-fio. Primeiramente, contribuímos com uma extensa revisão do estado da arte em comunicações em modo FD, especificamente relays FD, e além disto revisitamos as principais propriedades de esquemas de comunicação cooperativa. Analisamos de maneira extensiva o desempenho de esquemas com relays FD em ambientes com desvanecimento do tipo Rayleigh em termos probabilidade de falha de comunicação, vazão e eficiência energética. Além de todo arcabouço matemático introduzido nesta tese, também identificamos os casos em que sistemas cooperativos em mode Half-Duplex (HD) podem ser vantajosos comparados aos esquemas FD com auto-interferência. Assim, discutimos as relações de custo-benefício entre esquemas HD e FD e entre vazão e eficiência energética. A seguir, elaboramos o modelo estudado e estendemos os resultados iniciais para incorporar os casos com modelos mais gerais de desvanecimento, conhecidos como Nakagami-m. Estes resultados auxiliam na compreensão dos efeitos da auto-interferência residual e linha de visada em sistemas com relays FD. Por fim, contribuímos também com uma análise de desempenho de sistemas cooperativos seguros. Para tanto, usamos ferramentas da teoria da informação para aumentar a privacidade e confidencialidade da comunicação em canais sem-fio. Sendo assim, fornecemos um extenso arcabouço matemático para canais com desvanecimento composto. Além disto, demonstramos que, mesmo sofrendo forte auto-interferência, comunicação segura com relays FD pode também ser obtida, uma vez que segurança perfeita pode ser obtida. / In this thesis we study Full-Duplex (FD) cooperative networks from different perspectives, using concepts of information theory, communication theory and applied statistics. We provide a comprehensive performance analysis of cooperative communications systems operating with FD relays. We demonstrate that FD relaying is feasible even when experiencing strong self-interference, and we show its application under different scenarios. More importantly, the results attained through this work serve as a benchmark for design as well as deployment of current and future wireless communications technologies. Our first contribution is a comprehensive overview of the state-of-the-art on FD communications, more specifically on FD relaying, and we revisit some of the main properties of cooperative schemes. Another contribution comes from an extensive analysis of outage probability, throughput and energy efficiency of FD relaying over Rayleigh fading channels. Besides the mathematical framework introduced herein, we also show that in some cases cooperative Half-Duplex (HD) schemes achieve better performance than FD relaying with self-interference. Therefore, we draw a discussion on the trade-offs between HD and FD schemes as well as between throughput and energy efficiency. Then, we investigate the performance of FD relaying protocols under general fading settings, namely Nakagami-m fading. Our findings allow a better understanding of effects of the residual self-interference and line-of-sight on a FD relaying setup. Our final contribution lies on the performance analysis of secure cooperative networks relying on information theoretical metrics to provide enhanced privacy and confidentiality to wireless networks. Thus, we provide a comprehensive mathematical framework for composite fading channels. Even though experiencing strong self-interference, we demonstrate that FD relaying is feasible also under secrecy constraints, thus perfect secrecy can be achieved.

Sistemas de comunicação sem fio

Redes de computadores

Arquitetura de computador

Sistemas de rádio-interligação

Interferência eletromagnética

Rádio - Transmissores e transmissão

Desempenho - Avaliação

Análise numérica

Simulação (Computadores)

Engenharia elétrica

Wireless communication systems

Computer networks

Computer architecture

Radio relay systems

Electromagnetic interference

Radio - Transmitters and transmission

Performance - Rating of

Numerical analysis

Computer simulation

Electric engineering