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Low-power discrete Fourier transform and soft-decision Viterbi decoder for OFDM receiversSuh, Sangwook 31 August 2011 (has links)
The purpose of this research is to present a low-power wireless communication receiver with an enhanced performance by relieving the system complexity and performance degradation imposed by a quantization process. With an overwhelming demand for more reliable communication systems, the complexity required for modern communication systems has been increased accordingly. A byproduct of this increase in complexity is a commensurate increase in power consumption of the systems. Since the Shannon's era, the main stream of the methodologies for promising the high reliability of communication systems has been based on the principle that the information signals flowing through the system are represented in digits. Consequently, the system itself has been heavily driven to be implemented with digital circuits, which is generally beneficial over analog implementations when digitally stored information is locally accessible, such as in memory systems. However, in communication systems, a receiver does not have a direct access to the originally transmitted information. Since the received signals from a noisy channel are already continuous values with continuous probability distributions, we suggest a mixed-signal system in which the received continuous signals are directly fed into the analog demodulator and the subsequent soft-decision Viterbi decoder without any quantization involved. In this way, we claim that redundant system complexity caused by the quantization process is eliminated, thus gives better power efficiency in wireless communication systems, especially for battery-powered mobile devices. This is also beneficial from a performance perspective, as it takes full advantage of the soft information flowing through the system.
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Optical wireless communications with optical power and dynamic range constraintsYu, Zhenhua 22 May 2014 (has links)
Along with the rapidly increasing demand for wireless data while more and more crowded radio frequency (RF) spectrum, optical wireless communications (OWC) become a promising candidate to complement conventional RF communications, especially for indoor short and medium range data transmissions. Orthogonal frequency division multiplexing (OFDM) is considered for OWC due to its ability to boost data rates. However, the average emitted optical power and dynamic range of driving signals of LEDs are two major constraints in OWC. OFDM waveforms exhibits high upper and lower peak-to-average power ratios (PAPRs), which make OFDM signals optical power inefficient and easy to violate the dynamic range of LEDs, resulting clipping and nonlinear distortions. In this dissertation, we analyze and design optical power and dynamic range constrained OWC systems, for which OFDM is our major subject. We first derive distributions of upper PAPR and lower PAPR of OWC-OFDM signals. Then we analyze the clipped OFDM signals in term of error vector magnitude (EVM), signal-to-distortion ratio (SDR), and achievable data rates under both optical power and dynamic range constraints. The next part of this dissertation is the OFDM system design for visible light communications (VLC) considering illumination requirement. We investigate the illumination-to-communication efficiency (ICE) in VLC-OFDM, and design the brightness control and flickering mitigation schemes for VLC-OFDM. In the end, to reduce the complexity of driving circuits of LEDs , we propose using delta-sigma modulators in VLC-OFDM systems to convert continuous magnitude OFDM symbols into two-level LED driver signals without loss of the communication theory advantages of OFDM.
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Estudo de sistemas com multiportadoras ópticas ortogonais e coerentes / Study of systems with optical orthogonal multicarrier and consistentRafael Jales Lima Ferreira 27 March 2013 (has links)
Neste trabalho a técnica de multiportadoras OFDM (Orthogonal Frequency Division Multiplexing), aplicada a sistemas ópticos, é estudada, com foco principal na geração e transmissão dos chamados supercanais ópticos modulados em altíssimas taxas (até Terabits/s). O OFDM prevê um melhor aproveitamento da largura de banda e, quando comparada à técnica FDM (Frequency Division Multiplexing), permite uma redução de aproximadamente 50% do espectro ocupado. Esta economia proporcionada pela técnica torna-a forte candidata para uso em redes ópticas reconfiguráveis, pois provê melhor eficiência espectral aos sinais com reconfiguração de tráfego remoto. Dois cenários serão abordados: o primeiro, em que o sinal com multiportadoras moduladas de forma híbrida (QAM - quadradure amplitude modulation) é gerado no domínio elétrico para, em seguida, modular uma portadora óptica; e o segundo, no qual as multiportadoras são geradas no domínio óptico e, posteriormente, moduladas individualmente também no domínio óptico - e neste caso o formato de modulação pode variar. Para o segundo caso, três técnicas de geração de supercanais serão estudadas e avaliadas a fim de se realizar uma comparação entre elas. Neste trabalho também serão comparadas as técnicas de recepção óptica direta e coerente, aplicadas a sistemas OFDM. Os resultados para o estudo da geração de multiportadoras ópticas, obtidos através de simulações no software Optisystem v. 9.0, são validados por resultados experimentais obtidos no Laboratório de Comunicações Ópticas da Fundação CPqD. / This manuscript presents a study on the multicarrier modulation technique OFDM (Orthogonal frequency division multiplexing) applied to optical systems. The OFDM technique provides a better use of bandwidth and, compared with FDM (Frequency Division Multiplexing), provides a nearly 50% reduction of the occupied bandwidth. This feature makes the OFDM technique an ideal candidate for reconfigurable optical networks because it allows better spectral efficiency to the signals with remote traffic reconfiguration. The study focuses, mainly, on the theoretical investigation of OFDM applied to the transmission of the so-called optical superchannels, modulated at very high bit rates (above Terabits/s). Two scenarios are discussed: in the first, the multicarrier signal, modulated in a hybrid format (QAM - quadrature amplitude modulation), is generated in the electrical domain before modulating the optical carrier, and in the second the multicarrier beam is generated in the optical domain and subsequently each subcarrier is digitally modulated. In this second approach, three superchannel generation techniques are studied and evaluated for being compared. This work will also compare the direct and coherent detection techniques applied to OFDM systems. The results for the optical multicarrier generation study, obtained by numerical simulation (platform Optisystem v. 9.0), are validated by experimental results obtained at the Laboratory of Optical Communication CPqD Foundation.
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Filtros digitais para a separação de subbandas em sistemas PLC baseados em clustered-OFDMSchettino, Hugo Viveiros 26 February 2016 (has links)
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Previous issue date: 2016-02-26 / Este trabalho investiga o uso de filtros digitais de resposta ao impulso finita (finite impulse response
- FIR) e de resposta ao impulso infinita (infinite impulse response - IIR) para separar
os sinais dos clusters de esquemas de multiplexação por divisão de frequência ortogonal clusterizado
(clustered orthogonal frequency division multiplexing - clustered-OFDM), aplicado à
sistema de comunicação via rede elétrica (power line communication - PLC). Nesse contexto,
introduz-se uma formulação para explicitar a influência do filtro digital no esquema clustered-
OFDM. A partir dessa formulação, uma equação que quantifica a vazão em função do uso dos
filtros digitais, a qual leva em consideração a relação sinal ruído multicanal, a especificação do
filtro e, principalmente, o comprimento dele, é apresentada. Através de simulações computacionais,
analisa-se o desempenho do esquema sujeito a um conjunto de filtros digitais previamente
selecionados, considerando três cenários: canal corrompido pelo ruído aditivo, gaussiano e
branco (additive white Gaussian noise - AWGN), canal PLC indoor corrompido ruído (medido
numa residência localizada na cidade de Juiz de Fora, MG) e canal PLC outdoor corrompido
pelo ruído (medido numa rede de distribuição de energia elétrica de baixa tensão na cidade de
Juiz de Fora, MG). De acordo com os resultados computacionais, dentre os filtros digitais analisados,
os filtros digitais Chebychev tipo II, FIR interpolado (interpolated FIR - IFIR) e FIR de
fase mínima e equiripple são, de maneira geral, os filtros digitais que proporcionam os melhores
benefícios (maior vazão e menor complexidade computacional). Considerando-se a influência
da precisão finita nesses três filtros digitais, conclui-se que o filtro digital IIR Chebychev tipo II
quantizado proporciona a menor perda de vazão e, portanto, é um filtro bastante adequado para
esquemas clustered-OFDM. / This work investigates the use of finite impulse response (FIR) and infinite impulse response
(IIR) digital filters to separate the signals belonging distinct clusters in a clustered orthogonal
frequency division multiplexing (clustered-OFDM) scheme, when it is applied to power line
communication (PLC) system. In this context, we introduce a formulation to take into account
the choice of the digital filter for the clustered-OFDM scheme. Based on this formulation, an
equation that quantifies the data-rate as a function ofmultichannel signal noise ratio, digital filter
design specification and length of the digital filter is presented. Performance analyses based on a
previously selected set of digital filters over three scenarios, channel corrupted by additivewhite
Gaussian noise (AWGN), indoor PLC channel corrupted by the noise (measured in a residence
located in Juiz de Fora city, MG) and outdoor PLC corrupted by the noise (measured in a low
voltage distribution network in Juiz de Fora city, MG), are presented. According to numerical
results, Chebychev type II, interpolated FIR (IFIR) and equiripple minimum phase FIR digital
filters offers the best benefits in terms of less data-rate loss and computer complexity reduction.
Considering the influence of the finite precision in these three digital filters, simulation results
shows that the quantized Chebychev type II IIR digital filter attains the smallest data-rate loss
and, as a consequence, it a very appropriate digital filter for clustered-OFDM schemes.
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COMMUNICATIONS OVER AIRCRAFT POWER LINES: A PRACTICAL IMPLEMENTATIONTian, Hai, Trojak, Tom, Jones, Charles H. 10 1900 (has links)
ITC/USA 2006 Conference Proceedings / The Forty-Second Annual International Telemetering Conference and Technical Exhibition / October 23-26, 2006 / Town and Country Resort & Convention Center, San Diego, California / This paper presents a practical implementation of a hardware design for transmission of data over aircraft power lines. The intent of such hardware is to significantly reduce the wiring in the aircraft instrumentation system. The potential usages of this technology include pulse code modulation (PCM), Ethernet and other forms data communications. Details of the fieldprogrammable gate array (FPGA) and printed circuit board (PCB) designs of the digital and analog front end will be discussed. The power line is not designed for data transmission. It contains considerable noise, multipath effects, and time varying impedance. Spectral analysis data of an aircraft is presented to indicate the difficulty of the problem at hand. A robust modulation is required to overcome the harsh environment and to provide reliable transmission. Orthogonal frequency division multiplexing (OFDM) has been used in power line communication industry with a great deal of success. OFDM has been deemed the most appropriate technology for high-speed data transmission on aircraft power lines. Additionally, forward error correction (FEC) techniques are discussed.
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Accurate modelling and realisation of a 4th generation wireless communication systemSchulze, Shaun 12 1900 (has links)
Thesis (MScEng (Electrical and Electronic Engineering))--University of Stellenbosch, 2006. / A great demand exits for higher data rates and increased reliability of future consumer based
mobile communication systems while being more bandwidth and power efficient. Orthogonal frequency
division multiplexing (OFDM) in combination with multiple-input multiple-output (MIMO)
schemes has become a promising candidate for fulfilling the demand of next generation communication
systems.
The sensitivity of MIMO OFDM systems to physical impairments is of great interest and particularly
the Alamouti space-time block code is under investigation in this thesis. Generic and
comprehensive simulation models of an OFDM communication system incorporating the spacetime
block code are developed in a modular fashion and used in a performance evaluation with
non-ideal component and channel behaviour.
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FPGA-Based LDPC Coded Modulations for Optical Transport NetworksZou, Ding, Zou, Ding January 2017 (has links)
Current coherent optical transmission systems focus on single carrier solutions for 400Gb/s serial transmission to support traffic growth in fiber-optics communications, together with a few subcarriers multiplexed solutions for the 1 Tb/s serial data rates and beyond. With the advancement of analog-to-digital converter technologies, high order modulation formats up to 64-QAM with symbol rate up to 72Gbaud have been demonstrated experimentally with Raman amplification. To enable such high serial data rates, it is highly desirable to implement in hardware low complexity digital signal processing schemes and advanced forward error correction coding with powerful error correction capability. In this dissertation, to enable high-speed optical communications, we first proposed an efficient FPGA architecture of high-performance binary and non-binary LDPC engines that can support throughputs of multiple Gb/s, which have low power consumption, providing high net coding gains at a target bit-error rate of 10-15. Further, we implement a generalized LDPC coding based rate adaptive binary LDPC coding scheme and puncturing based rate adaptive non-binary LDPC coding scheme, where large number of parameters can be reconfigured in order to cope with the time-varying optical channel conditions and service requirements. Based on comprehensive analysis on complexity, latency, and power consumption we demonstrate that the proposed efficient implementation represents a feasible solution for the next generation optical communication networks. Additionally, we investigate the FPGA implementation of rate adaptive regular LDPC coding combined with up to six high-order modulation formats and demonstrate high net coding gain performance and demonstrated a bit loading algorithm for irregular LDPC coding. Lastly, we present the real-time implementation of a direct detection OFDM transceiver with multi Giga symbols/s symbol rates in a back-to-back configuration.
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Performance evaluation of OFDM de-modulator with various multiplier architectures for UWB system. / Performance evaluation of orthogonal frequency division multiplexing de-modulator with various multiplier architectures for ultra wide band systemJanuary 2010 (has links)
Chan, Pui Wai. / Thesis (M.Phil.)--Chinese University of Hong Kong, 2010. / Includes bibliographical references (leaves 81-83). / Abstracts in English and Chinese. / Abstract --- p.ii / Acknowledgement --- p.iv / Contents --- p.v / Chapter I. --- Introduction --- p.1 / Chapter II. --- Details of UWB System --- p.3 / Background --- p.3 / Technical Information --- p.3 / Applications --- p.11 / Chapter III. --- Theoretical Explanation on Orthogonal Frequency Division Multiplexing (OFDM) Technology --- p.13 / Chapter IV. --- Design of OFDM De-modulator --- p.21 / Multipath Delay Commutator (MDC) --- p.24 / Single-path Delay Feedback (SDF) --- p.25 / Multipath Delay Feedback (MDF) --- p.27 / Chapter V. --- Designs of Multipliers in UWB FFT module --- p.33 / Twiddle Factor Multiplication - Group 1 --- p.33 / Twiddle Factor Multiplication - Group 2 --- p.34 / Twiddle Factor Multiplication - Group 3 --- p.45 / Baugh-Wooley Algorithm --- p.46 / Modified-Booth Algorithm --- p.47 / Hardware Architecture of Multipliers --- p.54 / Partial Product Accumulator - Array Architecture --- p.55 / Partial Product Accumulator - Tree Architecture --- p.59 / Fixed-width Multiplier --- p.61 / Chapter VI. --- Comparison Methodology --- p.65 / Standard Cell Design Flow --- p.66 / FPGA Design Flow --- p.69 / Chapter VII. --- Simulation Results and Discussion --- p.71 / Simulation results of FFT module using Standard Cell Methodology --- p.71 / Simulation results of FFT module using FPGA Methodology --- p.74 / Discussion on Simulation results of FFT module using ASIC and FPGA Methodology --- p.77 / Area / Slice Usage --- p.77 / Power Consumption --- p.77 / APS/SPS --- p.78 / General Guidelines For Designing FFT Module For Other Systems --- p.78 / Chapter VIII. --- Conclusion --- p.80 / Chapter IX. --- Future Works --- p.80 / Reference --- p.81
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Adaptive pre-distortion for nonlinear high power amplifiers in OFDM systemsDurney Wasaff, Hugo Ivan 22 July 2004 (has links)
El acelerado crecimiento de las comunicaciones a través de plataformas de transmisión en banda ancha por vía alámbrica e inalámbrica, sumado al uso cada vez más extenso de modulaciones de amplitud no constante que, debido a su alta eficiencia espectral y bajo coste de implementación, han sido adoptadas en el marco de desarrollo de diversos estándares de transmisión, son aspectos que han servido de soporte y motivación fundamental para el presente trabajo de investigación en el campo de la compensación de distorsiones no lineales en sistemas de comunicación. El estudio de los efectos de la distorsión no lineal y su compensación ha sido desde hace ya muchos años objeto de atención para investigadores de diversas áreas. Hoy, en particular, este estudio sigue siendo fundamental ya que se encuentra directamente implicado en el desarrollo de tecnologías de última generación en el área de las comunicaciones. Los nuevos sistemas de transmisión digital, en especial aquellos basados en OFDM (Orthogonal Frequency Division Multiplexing), son capaces de ofrecer altos niveles de eficiencia espectral utilizando modulaciones lineales multinivel sobre un numeroso conjunto de subportadoras que, al ser (idealmente) ortogonales en frecuencia, pueden ser ubicadas en un ancho de banda muy reducido permitiendo así transmitir elevadas tasas de información por segundo y por ancho de banda. Sin embargo, y a consecuencia de esto, problemas como las interferencias por canal adyacente o la presencia de una distorsión no lineal en la cadena de transmisión afectan de manera crítica las prestaciones de estos sistemas imponiendo severos límites a su viabilidad. De hecho, en el campo de las comunicaciones móviles y satelitales, existen actualmente diversas aplicaciones donde estos esquemas de modulación y multicanalización están ya operativos. En estos casos, la eficiencia de potencia en transmisión resulta primordial para, entre otras razones, lograr una máxima autonomía del equipamiento. En este contexto, el comportamiento no lineal de los amplificadores de alta potencia utilizados en transmisión de radiofrecuencia, constituye el principal obstáculo (desde el punto de vista de la distorsión no lineal) para el buen funcionamiento de los sistemas de comunicación digital basados en OFDM. Afortunadamente, este nocivo efecto puede ser compensado mediante diversas técnicas clásicas de linealización cuyas variantes -ad-hoc' han sido propuestas y ampliamente investigadas, existiendo al día de hoy una nutrida literatura parte de la cual referimos a lo largo de este trabajo. Entre dichas técnicas, la pre-distorsión digital ofrece óptimas condiciones para el diseño de linealizadores adaptativos ya que puede ser implementada a muy bajo coste sobre la información discreta de las señales de banda base. El objetivo que se persigue, en general, es el de proveer las condiciones de linealidad necesarias para explotar las capacidades propias de las modulaciones de alta eficiencia espectral, y al mismo tiempo alcanzar un máximo aprovechamiento de la potencia disponible. En este trabajo de investigación, efectuamos inicialmente una revisión sintetizada de algunas importantes técnicas de linealización para luego dar paso a una revisión más detallada de dos modelos relevantes utilizados para caracterizar el comportamiento no lineal de los amplificadores de alta potencia (modelo se Series de Volterra y modelo de Saleh para amplificadores nolineales sin memoria). Junto con ello se examinan algunas interesantes propiedades estadísticas asociadas al fenómeno de la distorsión no lineal que han dado pie a considerar durante la investigación posibles nuevas aplicaciones en estrategias de pre-distorsión. Se ha querido también incluir la descripción, a nivel de sistema y modelo de señal, de un esquema de transmisión OFDM genérico incluyendo caracterizaciones analíticas detalladas del efecto no lineal a objeto de formalizar en propiedad un modelo discreto exacto que otorgue una visión más profunda para la comprensión del fenómeno estudiado. Finalmente se presenta el diseño y evaluación de un esquema de pre-distorsión basado en un algoritmo iterativo que considera, como principal aporte, la optimización bidimensional de un reducido número de coeficientes de interpolación que identifican de manera adaptativa la característica inversa de ganancia compleja de un amplificador, tanto en función de la particular morfología no lineal de dicha curva, como también de la distribución de probabilidad de las señales de entrada en banda base. / The rapid growth of wired and wireless broad-band communications and the pervasive use of spectrally efficient non-constant amplitude modulations, adopted in the framework of several standardized transmission formats, motivates and supports the present research work in the field of non-linear distortion in communication systems. The compensation of nonlinearities has received a lot of attention in past and recent years, presenting direct implications on industrial development of last generation communication technologies. New digital transmission systems, particularly those based on Orthogonal Frequency Division Multiplexing (OFDM), feature high spectral efficiency as they exploit multilevel linear modulations to transmit at high information rates in combination with a dense allocation of a large number of (ideally) orthogonal sub-carriers in a relatively reduced bandwidth. As a result, problems such as adjacent channel interference and non-linear distortion become critical for system performance and, therefore, must be reduced to a minimum. Moreover, numerous applications of such transmission schemes are already operative in the field of satellite and mobile communications, where power efficiency is of primary concern due to, among other reasons, operation autonomy of the equipment and effective transmitted power. In this context, the non-linear behaviour of high power amplifiers (HPAs) constitutes a major impairment for OFDM-based digital communications systems. The compensation of these harmful effects can be achieved using a variety of techniques that have been proposed and widely dealt with in the literature. Among these techniques, digital pre-distortion, which can be carried out at a very low cost over the discrete base-band information, provides optimal features for the efficient implementation of adaptive linearization. Thence, in order to provide good conditions for the reliable use of high spectral efficiency modulations while taking the maximum advantage from the transmitting power budget, it is necessary to incorporate a suitable linearization technique.In the present work, we begin by reviewing some background on linearization techniques. This leads us to continue analyzing two relevant theoretical models typically used in characterizing memory and memoryless nonlinear HPAs (Volterra Series model and Saleh model for memoryless nonlinear HPAs). In addition to this a generic OFDM system and signal structure is described in detail by including the non-linear effect in the analytical model of the transmission chain. This is done in order to formalize an exact discrete OFDM model that help us in achieving a deeper understanding of the phenomenon under consideration. Then, some useful statistical properties and parameters associated to the nonlinear distortion are examined as well as the application of a CDF-based estimation of nonlinearities which is proposed as a new pre-distortion strategy. Finally, a new discrete adaptive pre-distortion scheme is formulated and then tested via simulation. The analysis and design of the main algorithm proposed considers the adaptive identification of the inverse complex gain characteristic of a nonlinear HPA. For this purpose, an iterative 2-D optimization of a reduced number of interpolation functions is formulated under a special two-fold criterion which accounts for the particular morphology of the HPA's nonlinear gain characteristic, as well as the probability distribution of the input base-band information.
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Signal Acquisition and Tracking for Fixed Wireless Access Multiple Input Multiple Output Orthogonal Frequency Division MultiplexingMody, Apurva Narendra 23 November 2004 (has links)
The general objective of this proposed research is to design and develop signal acquisition and tracking algorithms for multiple input multiple output orthogonal frequency division multiplexing (MIMO-OFDM) systems for fixed wireless access applications. The algorithms are specifically targeted for systems that work in time division multiple access and frequency division multiple access frame modes. In our research, we first develop a comprehensive system model for a MIMO-OFDM system under the influence of the radio frequency (RF) oscillator frequency offset, sampling frequency (SF) offset, RF oscillator phase noise, frequency selective channel impairments and finally the additive white Gaussian noise. We then develop the acquisition and tracking algorithms to estimate and track all these parameters. The acquisition and tracking algorithms are assisted by a preamble consisting of one or more training sequences and pilot symbol matrices. Along with the signal acquisition and tracking algorithms, we also consider design of the MIMO-OFDM preamble and pilot signals that enable the suggested algorithms to work efficiently.
Signal acquisition as defined in our research consists of time and RF synchronization, SF offset estimation and correction, phase noise estimation and correction and finally channel estimation. Signal tracking consists of RF, SF, phase noise and channel tracking. Time synchronization, RF oscillator frequency offset, SF oscillator frequency offset, phase noise and channel estimation and tracking are all research topics by themselves. A large number of studies have addressed these issues, but usually individually and for single-input single-output (SISO) OFDM systems. In the proposed research we present a complete suite of signal acquisition and tracking algorithms for MIMO-OFDM systems along with Cramr-Rao bounds for the SISO-OFDM case. In addition, we also derive the Maximum Likelihood (ML) estimates of the parameters for the SISO-OFDM case.
Our proposed research is unique from the existing literature in that it presents a complete receiver implementation for MIMO-OFDM systems and accounts for the cumulative effects of all possible acquisition and tracking errors on the bit error rate (BER) performance. The suggested algorithms and the pilot/training schemes may be applied to any MIMO OFDM system and are independent of the space-time coding techniques that are employed.
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