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Nouveau récepteur radio numérique pour les observations astrophysiques spatiales dans la bande de fréquence 1 kHz à 50 MHz / New digital radio receiver for space astrophysical observations in the frequency range 1 kHz to 50 MHzGargouri, Yosra 21 November 2017 (has links)
Plusieurs phénomènes astronomiques émettent des ondes radios basses fréquences tels que les éruptions solaires, les magnétosphères, les pulsars . . . Certains de ces ondes sont mal captées par les observatoires terrestres à cause, principalement, de la coupure ionosphérique. Il devient indispensable d’envoyer des récepteurs radio dans l’espace pour les acquérir. Cependant, ces récepteurs sont consommation d’énergie et le taux de transmission. Un paradigme récent pour l’acquisition et la reconstruction des signaux, appelé l’échantillonnage comprimé (Compressive sampling, Compressed Sensing, CS) pourra être une réponse adéquate à ces problématiques en limitant, dès l’acquisition, la quantité de données numérisés : En effet, le CS a permis l’émergence d’un nouveau type de Convertisseur Analogique-Numérique (ADC) appelé Convertisseur Analogique-Information (AIC) qui permet d’échantillonner à une fréquence potentiellement inférieure à celle prescrite par Nyquist-Shannon, en exploitant le caractère parcimonieux des signaux. Nous proposons dans le cadre de cette thèse d’étudier l’application de l’échantillonnage comprimé pour l’acquisition des signaux astrophysiques spatiaux dans la bande de fréquence [1kHz à 50 MHz]. Nous nous focalisons sur des signaux émis par les deux sources radio les plus brillantes dans le ciel telles que vues de la Terre, à savoir le Soleil et Jupiter. En se basant sur les propriétés caractéristiques de nos signaux d’intérêt, nous avons construit progressivement et méthodologiquement notre schéma d’acquisition : En commençant par l’étude de compressibilité des signaux, puis l’identification de l’architecture du Convertisseur Analogique-Information (AIC) appropriée et enfin le choix de l’algorithme de reconstruction du signal. Nous avons également proposé une nouvelle implémentation flexible et programmable de l’AIC retenu, qui permet l’acquisition de différents types de signal ayant le même domaine de compressibilité avec différents facteurs de compression. En utilisant une technologie CMOS 65 nm, nous avons évalué le gain en quantité de données acquise et en consommation de puissance de cette architecture par rapport au convertisseur analogique-numérique traditionnel. / Several astronomical phenomena emit low-frequency radio waves such as solar flares, magnetospheres, pulsars ... Some of these emissions are poorly captured by ground-based observatories mainly because of the Earth’s ionospheric cutoff frequency. It becomes necessary to send radio receivers in space to acquire them. However, these receivers are faced with strong restrictions on storage capacity, energy consumption and transmission rate.To overcome these challenges, sampling architectures should be reviewed and improved. A recent paradigm for signal acquisition and reconstruction, known as compressive sampling hat require a limited number of measurements and leads to the development of a new type of converter : the Analog to Information Converter (AIC). Unlike standard Analog to Digital converters (ADC), AIC can sample at a lower rate than that prescribed by Nyquist Shannon, exploiting the sparsity of signals.The main goal of this thesis is to study the application of compressed sampling for the acquisition of spatial astrophysical signals in the frequency band [1 kHz to 50 MHz]. We focus on signals emitted by the two brightest radio sources in the sky as seen from the Earth, namely the Sun and Jupiter. Based on the characteristic properties of our signals of interest, we progressively and methodologically constructed our acquisition scheme : From the study of signals compressibility, to the choice of the AIC architecture and the signal reconstruction algorithm. We also proposed a new, flexible and programmable implementation of the selected AIC which allows the acquisition of different types of signal having the same compressibility domain and with different compression factors. Using a 65-nm CMOS technology, we evaluated the gain in terms of the amount of data acquired and power consumed of this architecture compared to the traditional analog-to-digital converter.
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Estudo do desempenho de filtros ópticos interferométricos: interferômetro Mach-Zehnder de fibra óptica e ressonador óptico em anelLima, José Luiz Sousa January 2006 (has links)
LIMA, José Luiz Sousa. Estudo do desempenho de filtros ópticos interferométricos: interferômetro Mach-Zehnder de fibra óptica e ressonador óptico em anel. 2006. 96 f. Tese (Doutorado em Física) - Programa de Pós-Graduação em Física, Departamento de Física, Centro de Ciências, Universidade Federal do Ceará, Fortaleza, 2006. / Submitted by Edvander Pires (edvanderpires@gmail.com) on 2015-05-05T20:15:39Z
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Previous issue date: 2006
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Acopladores direcionais de fibras Ãpticas com perfis de dispersÃo / Directional optic staple dispersion profile fiber(DPF)Almir Wirth Lima Junior 05 March 2007 (has links)
nÃo hà / Nosso trabalho apresenta uma anÃlise numÃrica da propagaÃÃo e comutaÃÃo de solitons fundamentais em acopladores de dois nÃcleos de fibras nÃo lineares construÃdos com fibras de perfis de dispersÃo (DPF). NÃs mostramos, que o formato apropriado do perfil DPF à muito eficaz na recuperaÃÃo, quase total, do comportamento da comutaÃÃo do sinal original associado à situaÃÃo sem perdas. O estudo da comutaÃÃo de solitons em acopladores nÃo lineares de fibras DPF proporciona possibilidades de se alcanÃar alta eficiencia no processamento de sinais ultra-rÃpidos em sistemas totalmente Ãticos, especialmente para comutadores e transistors Ãticos. Iniciamos, estudando as equaÃÃes de Maxwell, os Solitons Ãpticos, as EquaÃÃes dos Modos Acoplados, e a EquaÃÃo NÃo Linear de SchrÃdinger - NLSE (mÃtodos analÃtico, e numÃrico). A seguir, detalhamos a PropagaÃÃo e Chaveamento de Sinais Ãpticos âCWâ e âQuasi-CWâ em Acopladores Ãpticos, bem como analisamos de forma teÃrica os acopladores duplos nÃo lineares de Fibras Ãpticas com Perfis de DispersÃo Decrescente (DPF). Os Ãltimos capÃtulos tratam do objetivo real de nossa DissertaÃÃo, ou seja, a AnÃlise Detalhada de Acopladores Ãpticos de Fibras com Perfis de DispersÃo (DPF), Com, e Sem Perdas Ãpticas, incluindo dois tipos de configuraÃÃo(PA1 e PB1). Encerramos a DissertaÃÃo com as ConclusÃes sobre os estudos acima referidos / We present a numerical investigation of the propagation and the switching of fundamental solitons in a two-core nonlinear fiber coupler constructed with Dispersion Profile Fiber (DPF). We have shown that appropriate shaping of the DPF profile is quite effective to recover, almost completely, the original switching behavior associated to the lossless situation. The study of soliton switching in DPF nonlinear fiber couplers provides possibilities for achieving, high efficiency in ultrafast all-optical signal processing, especially for optical switches and optical transistors. We initiate, studying the Maxwell Equations, the Coupled-Mode Equations, and the the Nonlinear SchrÃdinger Equation - NLSE, (analytic, and numerical approaches). After this, we detail the Propagation and Switching of "CW" and "Quasi-CW" Optical Signals in Optical Couplers, as well like we analyze, through theoretical form, the nonlinear double couplers of Dispersion Profiles Fibers (DPF). The last chapters explain the real objective of our Dissertation, or be, Detailed Analysis of the Optical Couplers of Profiles Dispersion Fiber (DPF), With, and Without Optical Losses, including two kinds of configuration (PA1 and PB1). We enclose the Dissertation with the Conclusions about the above referred studies
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