Global ETD Search

41	Applications of Lattices over Wireless Channels Najafi, Hossein January 2012 (has links) In wireless networks, reliable communication is a challenging issue due to many attenuation factors such as receiver noise, channel fading, interference and asynchronous delays. Lattice coding and decoding provide efficient solutions to many problems in wireless communications and multiuser information theory. The capability in achieving the fundamental limits, together with simple and efficient transmitter and receiver structures, make the lattice strategy a promising approach. This work deals with problems of lattice detection over fading channels and time asynchronism over the lattice-based compute-and-forward protocol. In multiple-input multiple-output (MIMO) systems, the use of lattice reduction significantly improves the performance of approximate detection techniques. In the first part of this thesis, by taking advantage of the temporal correlation of a Rayleigh fading channel, low complexity lattice reduction methods are investigated. We show that updating the reduced lattice basis adaptively with a careful use of previous channel realizations yields a significant saving in complexity with a minimal degradation in performance. Considering high data rate MIMO systems, we then investigate soft-output detection methods. Using the list sphere decoder (LSD) algorithm, an adaptive method is proposed to reduce the complexity of generating the list for evaluating the log-likelihood ratio (LLR) values. In the second part, by applying the lattice coding and decoding schemes over asynchronous networks, we study the impact of asynchronism on the compute-and-forward strategy. While the key idea in compute-and-forward is to decode a linear synchronous combination of transmitted codewords, the distributed relays receive random asynchronous versions of the combinations. Assuming different asynchronous models, we design the receiver structure prior to the decoder of compute-and-forward so that the achievable rates are maximized at any signal-to-noise-ratio (SNR). Finally, we consider symbol-asynchronous X networks with single antenna nodes over time-invariant channels. We exploit the asynchronism among the received signals in order to design the interference alignment scheme. It is shown that the asynchronism provides correlated channel variations which are proved to be sufficient to implement the vector interference alignment over the constant X network. Wireless Lattice Fading MIMO decoding Interference Alignment Compute-and-Forward Soft-output Lattice Decoding X network Degrees of Freedom Lattice Reduction Asynchronous Networks Asynchronous Communications Matched Filter Maximum Likelihood LLL DILLL X channel Adaptive Decoding Closest Point Search Electrical and Computer Engineering
42	Detecção de sinais e estimação de energia para calorimetria de altas energias / Signal detection and energy estimation for high energy calorimetry Peralva, Bernardo Sotto-Maior 07 May 2012 (has links) Submitted by Renata Lopes (renatasil82@gmail.com) on 2017-04-20T15:14:06Z No. of bitstreams: 1 bernardosottomaiorperalva.pdf: 4608167 bytes, checksum: c63c1f7fc453965f36158791fb85964e (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2017-04-24T16:49:03Z (GMT) No. of bitstreams: 1 bernardosottomaiorperalva.pdf: 4608167 bytes, checksum: c63c1f7fc453965f36158791fb85964e (MD5) / Made available in DSpace on 2017-04-24T16:49:04Z (GMT). No. of bitstreams: 1 bernardosottomaiorperalva.pdf: 4608167 bytes, checksum: c63c1f7fc453965f36158791fb85964e (MD5) Previous issue date: 2012-05-07 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Nesta dissertação, são apresentados métodos para detecção de sinais e estimação de energia para calorimetria de altas energias aplicados no calorímetro hadrônico (TileCal) do ATLAS. A energia depositada em cada célula do calorímetro é adquirida por dois canais eletrônicos de leitura e é estimada, separadamente, através da reconstrução da amplitude do pulso digitalizado amostrado a cada 25 ns. Este trabalho explora a aplicabilidade de uma aproximação do Filtro Casado no ambiente do TileCal para detectar sinais e estimar sua amplitude. Além disso, este trabalho explora o impacto na detecção de eventos válidos e estimação da amplitude quando somam-se os sinais referentes à mesma célula antes da aplicação do ﬁltro. O método proposto é comparado com o Filtro Ótimo atualmente utilizado pelo TileCal para reconstrução de energia. Os resultados para dados simulados e de colisão mostram que, para condições em que a linha de base do sinal de entrada pode ser considerada estacionária, a técnica proposta apresenta uma melhor eﬁciência de detecção e estimação do que a alcançada pelo Filtro Ótimo empregada no TileCal. / The Tile Barrel Calorimeter (TileCal) is the central section of the hadronic calorimeter of ATLAS at LHC. The energy deposited in each cell of the calorimeter is read out by two electronic channels for redundancy and is estimated, per channel, by reconstructing the amplitude of the digitized signal pulse sampled every 25 ns. This work presents signal detection and energy estimation methods for high energy calorimetry, applied to the TileCal environment. It investigates the applicability of a Matched Filter and, furthermore, it explores the impact when summing the signals belonging to the same cell before the estimating and detecting procedures. The proposed method is compared to the Optimal Filter algorithm, that is currently been used at TileCal for energy reconstruction. The results for simulated and collision data sets showed that for conditions where the signal pedestal could be considered stationary, the proposed method achieves better detection and estimation eﬃciencies than the Optimal Filter technique employed in TileCal. CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA Detecção e estimação de sinais Filtro casado Filtragem ótima Processamento digital de sinais Física de altas energias Signal detection and estimation Matched filter Optimal filtering Digital signal processing High energy physics
43	Model based pulse shaping for detection of gamma rays Ödmark, Fredrik January 2017 (has links) To analyse drill samples in a mine, a scanner that uses a gamma ray detector can be used. The scanner can analyse the drill sample to quickly see the elements present in the sample without destroying it. To improve the performance of the scanner, the electric signal from the detector needs to be less noisy, and different pulse shaping methods, filters and smoothers can be used on the sampled data to achieve an improved performance. In this master thesis, the electric noise model of the electronics around the detector was modeled, and analysed. Different pulse shaping method, filters and smoothers was also tested to see which method gave the best performance in FWHM sense. The Full Width at Half Maximum (FWHM) is the energy resolution of a detector, and is defined as the full width of a photopeak at the half maximum. The noise model of the schematic for the preamplifier was made by hand with support from MATLAB. The resulting noise model was compared between MATLAB and LTspice, and the conclusion is that the JFET is the main contributor of the significant noise, contributing to 98 % of the total noise at 10 GHz. The adopted filters and pulse shaping method are, matched filter, custom filter, CR-RC shaping, mean filter, median filter and clustering. The results from the tests indicated that custom filter with a FWHM of 1.96 keV and CR-RC with a FWHM of 1.67 keV shaping were more accurate than the matched filter with the FWHM of 5.1 keV. But the results also showed that it is important to take into account the waveform variance, due to inherent properties in the detector, with this consideration the FWHM of CR-RC shaper was improved from 2.29 keV to 1.67 keV. The clustering method was the most promising method but due to time constraints this method was never fully tested and no FWHM value was achieved. pulse shaping FWHM CR-RC electric noise model analyse drill samples gamma ray detector matched filter custom filter clustering Annan elektroteknik och elektronik Signal Processing Signalbehandling
44	Amélioration des techniques de reconnaissance automatique de mines marines par analyse de l'écho à partir d'images sonar haute résolution / Improvement of automatic recognition techniques of marine mines by analyzing echo in high resolution sonar images Elbergui, Ayda 10 December 2013 (has links) La classification des cibles sous-marines est principalement basée sur l'analyse de l'ombre acoustique. La nouvelle génération des sonars d'imagerie fournit une description plus précise de la rétrodiffusion de l'onde acoustique par les cibles. Par conséquent, la combinaison de l'analyse de l'ombre et de l'écho est une voie prometteuse pour améliorer la classification automatique des cibles. Quelques systèmes performants de classification automatique des cibles s'appuient sur un modèle pour faire l'apprentissage au lieu d'utiliser uniquement des réponses expérimentales ou simulées de cibles pour entraîner le classificateur. Avec une approche basée modèle, un bon niveau de performance en classification peut être obtenu si la modélisation de la réponse acoustique de la cible est suffisamment précise. La mise en œuvre de la méthode de classification a nécessité de modéliser avec précision la réponse acoustique des cibles. Le résultat de cette modélisation est un simulateur d'images sonar (SIS). Comme les sonars d'imagerie fonctionnent à haute et très haute fréquence le modèle est basé sur le lancer de rayons acoustiques. Plusieurs phénomènes sont pris en compte pour augmenter le réalisme de la réponse acoustique (les effets des trajets multiples, l'interaction avec le fond marin, la diffraction, etc.). La première phase du classificateur utilise une approche basée sur un modèle. L'information utile dans la signature acoustique de la cible est nommée « A-scan ». Dans la pratique, l'A-scan de la cible détectée est comparé à un ensemble d'A-scans générés par SIS dans les mêmes conditions opérationnelles. Ces gabarits (A-scans) sont créés en modélisant des objets manufacturés de formes simples et complexes (mines ou non mines). Cette phase intègre un module de filtrage adapté pour permettre un résultat de classification plus souple capable de fournir un degré d'appartenance en fonction du maximum de corrélation obtenu. Avec cette approche, l'ensemble d'apprentissage peut être enrichi afin d'améliorer la classification lorsque les classes sont fortement corrélées. Si la différence entre les coefficients de corrélation de l'ensemble de classes les plus probables n'est pas suffisante, le résultat est considéré ambigu. Une deuxième phase est proposée afin de distinguer ces classes en ajoutant de nouveaux descripteurs et/ou en ajoutant davantage d'A-scans dans la base d'apprentissage et ce, dans de nouvelles configurations proches des configurations ambiguës. Ce processus de classification est principalement évalué sur des données simulées et sur un jeu limité de données réelles. L'utilisation de l'A-scan a permis d'atteindre des bonnes performances de classification en mono-vue et a amélioré le résultat de classification pour certaines ambiguïtés récurrentes avec des méthodes basées uniquement sur l'analyse d'ombre. / Underwater target classification is mainly based on the analysis of the acoustic shadows. The new generation of imaging sonar provides a more accurate description of the acoustic wave scattered by the targets. Therefore, combining the analysis of shadows and echoes is a promising way to improve automated target classification. Some reliable schemes for automated target classification rely on model based learning instead of only using experimental samples of target acoustic response to train the classifier. With this approach, a good performance level in classification can be obtained if the modeling of the target acoustic response is accurate enough. The implementation of the classification method first consists in precisely modeling the acoustic response of the targets. The result of the modeling process is a simulator called SIS (Sonar Image Simulator). As imaging sonars operate at high or very high frequency the core of the model is based on acoustical ray-tracing. Several phenomena have been considered to increase the realism of the acoustic response (multi-path propagation, interaction with the surrounding seabed, edge diffraction, etc.). The first step of the classifier consists of a model-based approach. The classification method uses the highlight information of the acoustic signature of the target called « A-scan ». This method consists in comparing the A-scan of the detected target with a set of simulated A-scans generated by SIS in the same operational conditions. To train the classifier, a Template base (A-scans) is created by modeling manmade objects of simple and complex shapes (Mine Like Objects or not). It is based on matched filtering in order to allow more flexible result by introducing a degree of match related to the maximum of correlation coefficient. With this approach the training set can be extended increasingly to improve classification when classes are strongly correlated. If the difference between the correlation coefficients of the most likely classes is not sufficient the result is considered ambiguous. A second stage is proposed in order to discriminate these classes by adding new features and/or extending the initial training data set by including more A-scans in new configurations derived from the ambiguous ones. This classification process is mainly assessed on simulated side scan sonar data but also on a limited data set of real data. The use of A-scans have achieved good classification performances in a mono-view configuration and can improve the result of classification for some remaining confusions using methods only based on shadow analysis. Classification de cibles sous-marines Écho acoustique A-scan Images sonar latéral Simulation d'images sonar Filtrage adapté Lancer de rayons Sonel Mapping Underwater target classification Acoustic highlight A-scan Sidescan sonar images Sonar image simulation Matched filter Ray tracing Sonel Mapping
45	Ultra-wideband Spread Spectrum Communications using Software Defined Radio and Surface Acoustic Wave Correlators Gallagher, Daniel 01 January 2015 (has links) Ultra-wideband (UWB) communication technology offers inherent advantages such as the ability to coexist with previously allocated Federal Communications Commission (FCC) frequencies, simple transceiver architecture, and high performance in noisy environments. Spread spectrum techniques offer additional improvements beyond the conventional pulse-based UWB communications. This dissertation implements a multiple-access UWB communication system using a surface acoustic wave (SAW) correlator receiver with orthogonal frequency coding and software defined radio (SDR) base station transmitter. Orthogonal frequency coding (OFC) and pseudorandom noise (PN) coding provide a means for spreading of the UWB data. The use of orthogonal frequency coding (OFC) increases the correlator processing gain (PG) beyond that of code division multiple access (CDMA); providing added code diversity, improved pulse ambiguity, and superior performance in noisy environments. Use of SAW correlators reduces the complexity and power requirements of the receiver architecture by eliminating many of the components needed and reducing the signal processing and timing requirements necessary for digital matched filtering of the complex spreading signal. The OFC receiver correlator code sequence is hard-coded in the device due to the physical SAW implementation. The use of modern SDR forms a dynamic base station architecture which is able to programmatically generate a digitally modulated transmit signal. An embedded Xilinx Zynq ™ system on chip (SoC) technology was used to implement the SDR system; taking advantage of recent advances in digital-to-analog converter (DAC) sampling rates. SDR waveform samples are generated in baseband in-phase and quadrature (I & Q) pairs and upconverted to a 491.52 MHz operational frequency. The development of the OFC SAW correlator ultimately used in the receiver is presented along with a variety of advanced SAW correlator device embodiments. Each SAW correlator device was fabricated on lithium niobate (LiNbO3) with fractional bandwidths in excess of 20%. The SAW correlator device presented for use in system was implemented with a center frequency of 491.52 MHz; matching SDR transmit frequency. Parasitic electromagnetic feedthrough becomes problematic in the packaged SAW correlator after packaging and fixturing due to the wide bandwidths and high operational frequency. The techniques for reduction of parasitic feedthrough are discussed with before and after results showing approximately 10:1 improvement. Correlation and demodulation results are presented using the SAW correlator receiver under operation in an UWB communication system. Bipolar phase shift keying (BPSK) techniques demonstrate OFC modulation and demodulation for a test binary bit sequence. Matched OFC code reception is compared to a mismatched, or cross-correlated, sequence after correlation and demodulation. Finally, the signal-to-noise power ratio (SNR) performance results for the SAW correlator under corruption of a wideband noise source are presented. Engineering
46	Machine Learning Uplink Power Control in Single Input Multiple Output Cell-free Networks Tai, Yiyang January 2020 (has links) This thesis considers the uplink of cell-free single input multiple output systems, in which the access points employ matched-filter reception. In this setting, our objectiveis to develop a scalable uplink power control scheme that relies only on large-scale channel gain estimates and is robust to changes in the environment. Specifically, we formulate the problem as max-min and max-product signal-to-interference ratio optimization tasks, which can be solved by geometric programming. Next, we study the performance of supervised and unsupervised learning approaches employing a feed-forward neural network. We find that both approaches perform close to the optimum achieved by geometric programming, while the unsupervised scheme avoids the pre-computation of training data that supervised learning would necessitate for every system or environment modification. / Den här avhandlingen tar hänsyn till upplänken till cellfria multipla utgångssystem med en enda ingång, där åtkomstpunkterna använder matchad filtermottagning. I den här inställningen är vårt mål att utveckla ett skalbart styrsystem för upplänkskraft som endast förlitar sig på storskaliga uppskattningar av kanalökningar och är robusta för förändringar i miljön. Specifikt formulerar vi problemet som maxmin och max-produkt signal-till-störningsförhållande optimeringsuppgifter, som kan lösas genom geometrisk programmering. Därefter studerar vi resultatet av övervakade och okontrollerade inlärningsmetoder som använder ett framåtriktat neuralt nätverk. Vi finner att båda metoderna fungerar nära det optimala som uppnås genom geometrisk programmering, medan det övervakade schemat undviker förberäkningen av träningsdata som övervakat inlärning skulle kräva för varje system- eller miljöändring. Neural networks Power allocation Matched-filter reception Max-min Max-product Geometric programming Neurala nätverk Strömallokering Matchad filtermottagning Max-min Max-produkt Geometrisk programmering Computer and Information Sciences Data- och informationsvetenskap
47	Optimisation des formes d'ondes d'un radar d'aide à la conduite automobile, robustes vis-à-vis d'environnements électromagnétiques dégradés / Optimization of automotive radar waveforms in degraded electromagnetic environments Touati, Nadjah 20 November 2015 (has links) Divers radars sont développés pour des besoins d’aide à la conduite automobile de sécurité mais aussi de confort. Ils ont pour but de détecter la présence d’obstacles routiers afin d’éviter d’éventuelles collisions. La demande actuelle en termes de capteurs radars pour l’automobile connaît une croissance importante et les technologies employées doivent garantir de bonnes performances dans un environnement dégradé par les signaux interférents des autres utilisateurs. Dans cette thèse, nous nous intéressons au développement d’un système radar performant en tout lieu et en particulier dans un contexte multi-utilisateurs. A ce propos, nous proposons de nouvelles formes d’ondes qui se basent sur la combinaison des codes fréquentiels de Costas et d’autres techniques de compression d’impulsion en exploitant les signaux de Costas modifiés. La conception adoptée permet, grâce à la diversité introduite, de synthétiser un nombre important de formes d’ondes. Nous avons, ensuite, exploité deux approches d’estimation des paramètres des cibles. La première, plutôt classique, se base sur le traitement Doppler dans un train d’impulsions cohérent. La deuxième, récente dans le domaine automobile, se base sur la technique dite de « Compressed Sensing ». Une adaptation de ces algorithmes pour les signaux proposés a été discutée dans des environnements bruités et multi-cibles. L’ensemble de ces travaux contribue à explorer de nouvelles formes d’ondes, autres que celles utilisées dans les radars actuels et à proposer un traitement innovant en réception, adapté aux radars en général et à l’automobile en particulier. / Several driver assistance radars are developed for security and comfort requirements. Their goal is among others to detect the presence of obstacles for collision avoidance. The current demand in terms of automotive radar sensors experience a significant growth and the technologies being employed must ensure good performances especially in an environment degraded by interfering signals of other users. In this thesis, we are interested in developing a radar system which is effective in all situations especially in a multi-user context. For this purpose, we propose novel radar waveforms based on the combination of frequency hopping Costas codes and other pulse compression techniques, using modified Costas signals. The design approach allows to synthesize a significant number of waveforms, thanks to the high diversity introduced. Afterwards, we have exploited two estimation of target parameters approaches. The first one, quite classic, is based on Doppler processing in a coherent pulse train. The second one, recent in the automotive field , is based on the Compressed sensing techniques. An adaptation of these algorithms to proposed signals is discussed in noisy and multi-target environments. All these works contribute in one hand to explore novel radar waveforms, complement to those currently used in automotive radars and in another hand to propose an innovative processing at the receiver level, suited to radar applications in general and automotive ones in particular. Formes d’ondes radar Codes de Costas Compression d’impulsion Codes de phase Séquences de Slepian Fonction d’ambiguïté Fonction d’inter-Ambiguïté Filtre adapté Fonction d’autocorrélation Fonction d’intercorrélation Lobes récurrents Traitement Doppler Acquisition comprimée. Radar waveforms Costas codes Pulse compression Phase codes Slepian sequences Ambiguity function Cross-Ambiguity function Matched filter Autocorrelation function Crosscorrelation function Grating lobes Doppler processing Compressed sensing.
48	[en] COMPARISON AMONG WIDEBAND MOBILE RADIO CHANNEL SOUNDING TECHNIQUES IN THE PRESENCE OF SOUNDER IMPERFECTIONS / [pt] COMPARAÇÃO ENTRE MÉTODOS DE SONDAGEM DO CANAL RÁDIO MÓVEL EM BANDA LARGA NA PRESENÇA DE IMPERFEIÇÕES NAS SONDAS CARLOS EDUARDO SALLES FERREIRA 18 July 2018 (has links) [pt] As características do canal rádio móvel são essenciais ao desenvolvimento de equipamentos e sistemas modernos de telecomunicações sem fio. Para os ambientes nos quais o sistemas operarão, o conhecimento dos principais parâmetros do canal em banda larga é obtido através do uso do conjunto formado por um equipamento transmissor e outro equipamento receptor com suas respectivas antenas. A este conjunto transmissor e receptor atribui-se o nome de sonda. Existem diversas tecnologias sobre as quais as sondas são projetadas e construídas. Em particular mencionam-se as técnicas STDCC (swept time-delay cross-correlation), o Filtro Casado e o OFDM (orthogonal frequency-division multiplexing). Esta tese compara, por simulação, o desempenho de sondas que utilizam estas três técnicas. São propostas alterações nos métodos Filtro Casado e OFDM, de forma que estes proporcionem resultados mais precisos. Além disto, são estudadas imperfeições em dispositivos comuns a todas elas e comparadas sua influência sobre a qualidade das estimações, de forma isolada e combinada. Para o amplificador de potência é considerado o seu principal fator de degradação: suas não linearidades. Para o oscilador local existente no receptor é analisada a contribuição do ruído de fase. O ruído térmico, sempre presente à entrada do receptor em qualquer situação, é variado em uma extensa faixa de valores e o seu efeito sobre a precisão de cada método é analisado. Os resultados obtidos são apresentados na forma de tabelas e gráficos representando, diretamente, o resultado da comparação com o canal de referência ou por meio dos indicadores erro RMS e desvio padrão. / [en] The mobile radio channel characterization is essential to the development of modern wireless telecommunication equipment and systems. The main wideband channel parameters of the environments where these systems will operate are collected by the use of a set comprising a transmitter, a receiver and an aerial system. This set is named sounder. There are many techniques used to project and implement these sounders, such as STDCC (Swept Time-Delay Cross-Correlation), Matched Filter and OFDM (Orthogonal Frequency-Division Multiplexing). This thesis compares, by means of computer simulations, the performance of these three techniques. Some changes are proposed on the Matched Filter and OFDM methods to reach more precise results. Moreover, imperfections in common devices used by all sounders are studied, both independently and jointly, and the impact over the precision of channel estimations is analyzed. The main degradation factor of power amplifiers, which are the nonlinearities, was also considered, as well as the contribution of the phase noise in the receiver local oscillator. The effect of the thermal noise, always present on the receiver input, was also considered, over a large range of values. The results are presented by diagrams and tables showing results of comparisons with a reference channel or by mean of RMS errors and standard deviations. [pt] CANAL RADIO MOVEL [en] MOBILE RADIO CHANNEL [pt] RUIDO DE FASE [en] PHASE NOISE [pt] OFDM [en] OFDM [pt] STDCC [pt] METODOS DE SONDAGEM EM BANDA LARGA [en] WIDEBAND SOUNDING METHODS [pt] FILTRO CASADO [en] MATCHED FILTER [pt] DISTORCOES NAO LINEARES [en] NONLINEAR DISTORTIONS [pt] RUIDO TERMICO [en] THERMAL NOISE
49	周波数偏差を伴うスペクトル拡散信号における高速同期捕捉に関する研究片山, 正昭 January 1997 (has links) 科学研究費補助金研究種目:基盤研究(C)(2) 課題番号:07805037 研究代表者:片山正昭研究期間:1995-1996年度低軌道衛星通信システム搬送波周波数偏差 FFT 分割マッチドフィルタ搬送波周波数捕捉スペクトル拡散通信方式信号処理拡散符号捕捉 Signal Processing Low Earth-Orbital Satellite System Spread Spectrum Sommunication Acquisition of a Spreading Sequence 高速同期捕捉 Divided Matched Filter Estimation of the Carrier Frequency M値スペクトル拡散通信方式スペクトル拡散通信システム Carrier Frequency Offset

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