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211	Τεχνικές διαχείρισης ραδιοπόρων στα ασύρματα ραδιοδίκτυα νέας γενιάς με κριτήρια αξιοπιστίας και δικαιοσύνης Παπουτσής, Βασίλειος 09 September 2011 (has links) Τα μελλοντικά ασύρματα δίκτυα και συστήματα επικοινωνιών αναμένεται να παρέχουν αξιόπιστα υπηρεσίες δεδομένων με απαιτήσεις ρυθμού μετάδοσης δεδομένων οι οποίες κυμαίνονται από λίγα kbps μέχρι μερικά Mbps και εξαιτίας του υψηλού κόστους του φάσματος συχνοτήτων, αυτά τα συστήματα χρειάζεται να είναι εξαιρετικά αποτελεσματικά όσον αφορά στη χρησιμοποίηση του φάσματος. Συγκεκριμένα, η εφαρμογή τεχνικών μετάδοσης δεδομένων οι οποίες βασίζονται σε MIMO και OFDMA θεωρείται ως μια πολλά υποσχόμενη λύση για να ικανοποιήσει αυτές τις απαιτήσεις. Από την άλλη μεριά, τα συστήματα MIMO-OFDMA είναι εύκαμπτα και φασματικά αποτελεσματικά αλλά ο αξιοσημείωτα μεγάλος αριθμός υποφορέων και ο συνυπολογισμός της διάστασης χώρου καθιστούν την κατανομή ραδιοπόρων πολύ πολύπλοκη. Στην πραγματικότητα, η βέλτιστη κατανομή ραδιοπόρων η οποία μεγιστοποιεί το συνολικό ρυθμό μετάδοσης δεδομένων των χρηστών είναι συχνά πάρα πολύ πολύπλοκη για πρακτικές εφαρμογές. Συνεπώς, απαιτούνται υποβέλτιστες σχετικά αποτελεσματικές και χαμηλής πολυπλοκότητας στρατηγικές κατανομής ραδιοπόρων ώστε να κατανείμουν τους ραδιοπόρους συχνότητας, ισχύος και χώρου του συστήματος στους χρήστες του συστήματος. Η παρούσα ΔΔ διαπραγματεύεται στρατηγικές κατανομής ραδιοπόρων στην κατερχόμενη και στην ανερχόμενη ζεύξη συστημάτων OFDMA, στην κατερχόμενη ζεύξη συστημάτων MISO-OFDMA και στην κατερχόμενη ζεύξη συστημάτων MIMO-OFDMA στοχεύοντας στη μεγιστοποίηση του συνολικού ρυθμού μετάδοσης δεδομένων των χρηστών εγγυώντας οι ρυθμοί μετάδοσης δεδομένων των χρηστών να τηρούν μια προκαθορισμένη αναλογία μεταξύ τους ή να ξεπερνούν προκαθορισμένους ελάχιστους ρυθμούς μετάδοσης δεδομένων. Στο πλαίσιο της επίλυσης του προβλήματος της μεγιστοποίησης του συνολικού ρυθμού μετάδοσης δεδομένων των χρηστών με ανεκτή πολυπλοκότητα για κάθε μία από τις προαναφερθείσες περιπτώσεις, προτείνονται νέοι υποβέλτιστοι αλγόριθμοι. Στην κατερχόμενη ζεύξη των συστημάτων SISO, στόχος είναι η μεγιστοποίση του συνολικού ρυθμού μετάδοσης δεδομένων των χρηστών με περιορισμό στη συνολική διαθέσιμη ισχύ και με αναλογικούς ρυθμούς μετάδοσης δεδομένων μεταξύ των χρηστών. Η προτεινόμενη μέθοδος, η οποία είναι αποτελεσματική όσον αφορά στην πολυπλοκότητα, αποτελείται από τρεις αλγόριθμους: έναν αλγόριθμο ο οποίος προσδιορίζει τον αριθμό των υποφορέων για κάθε χρήστη, έναν αλγόριθμο κατανομής υποφορέων διαιρώντας τους χρήστες σε δύο ομάδες και τον αλγόριθμο water-filling. Οι πρώτοι δύο αλγόριθμοι αναθέτουν τους διαθέσιμους υποφορείς στους χρήστες του συστήματος και ο τρίτος αλγόριθμος κατανέμει τη διαθέσιμη ισχύ με βέλτιστο τρόπο για μεγιστοποίηση του συνολικού ρυθμού μετάδοσης δεδομένων. Στην ανερχόμενη ζεύξη των συστημάτων SISO, στόχος είναι η μεγιστοποίηση του συνολικού ρυθμού μετάδοσης δεδομένων των χρηστών με περιορισμό στην ισχύ κάθε χρήστη και σε ελάχιστους ρυθμούς μετάδοσης δεδομένων μεταξύ των χρηστών. Η προτεινόμενη τεχνική, η οποία είναι αποτελεσματική όσον αφορά στην πολυπλοκότητα, αποτελείται από τρεις αλγόριθμους: έναν αλγόριθμο ο οποίος προσδιορίζει τον αριθμό των υποφορέων για κάθε χρήστη, έναν αλγόριθμο κατανομής υποφορέων διαιρώντας τους χρήστες σε δύο ομάδες και τον αλγόριθμο water-filling. Οι πρώτοι δύο αλγόριθμοι αναθέτουν τους διαθέσιμους υποφορείς στους χρήστες του συστήματος και ο τρίτος αλγόριθμος κατανέμει τη διαθέσιμη ισχύ. Στην κατερχόμενη ζεύξη των συστημάτων MISO αναπτύσσονται τρεις αλγόριθμοι επιλογής χρηστών και κατανομής πόρων για πολυχρηστικά συστήματα κατερχόμενης ζεύξης οι οποίοι είναι λιγότερο πολύπλοκοι από άλλες προσεγγίσεις και ενσωματώνουν τη δικαιοσύνη. Στους πρώτους δύο αλγόριθμους επιβάλλονται αναλογικοί περιορισμοί μεταξύ των ρυθμών μετάδοσης δεδομένων των χρηστών και στον τρίτο αλγόριθμο περιορισμοί στους ελάχιστους ρυθμούς μετάδοσης δεδομένων λαμβάνονται υπόψη. Επίσης, πραγματοποιείται επέκταση του αλγόριθμου μεγιστοποίησης του συνολικού ρυθμού μετάδοσης δεδομένων με αναλογικούς περιορισμούς δικαιοσύνης σε ΣΚΚ και για μείωση της πολυπλοκότητας οι υποφορείς ομαδοποιούνται σε τεμάχια. Τα αποτελέσματα της προσομοίωσης επιβεβαιώνουν την αποτελεσματικότητα τους στη διανομή του συνολικού ρυθμού μετάδοσης δεδομένων δίκαια μεταξύ των χρηστών αλλά και ότι σε ΣΚΚ επιτυγχάνονται μεγαλύτεροι συνολικοί ρυθμοί μετάδοσης δεδομένων. Τέλος, στην κατερχόμενη ζεύξη των συστημάτων MIMO, το πρόβλημα διατυπώνεται με στόχο τη μεγιστοποίηση του συνολικού ρυθμού μετάδοσης δεδομένων των χρηστών με περιορισμό στη συνολική διαθέσιμη ισχύ και ελέγξιμο εύρος ζώνης στο σύστημα εισάγοντας την παράμετρο α. Αφού αυτό το πρόβλημα βελτιστοποίησης πρέπει να εκτελεστεί σε πραγματικό χρόνο, προτείνεται ένας αλγόριθμος αποδοτικός, υποβέλτιστος και αποτελεματικός όσον αφορά στην πολυπλοκότητα ο οποίος παρουσιάζει λογική απώλεια όσον αφορά στην περίπτωση χωρίς περιορισμούς όπου ο μόνος στόχος είναι η μεγιστοποίηση του συνολικού ρυθμού μετάδοσης δεδομένων και εντυπωσιακό όφελος συγκρινόμενος με τη στατική τεχνική TDMA. Πέραν της θεωρητικής ανάλυσης των παραπάνω αλγόριθμων, ο προσομοιωτικός κώδικας που δημιουργήθηκε βασισμένος σε ρεαλιστικές υποθέσεις και απλουστεύσεις, μάς έδωσε τα αποτελέσματα εκείνα τα οποία μετρούν το συνολικό ρυθμό μετάδοσης δεδομένων των χρηστών ο οποίος παρέχεται από κάθε έναν από τους προαναφερθέντες αλγόριθμους και εξετάζουν την πιθανή καταλληλότητα για χρήση τους σε συγκεκριμένα περιβάλλοντα. Τα τελικά συμπεράσματα είναι ότι τα συστήματα MIMO-OFDMA είναι ικανά να προσφέρουν πραγματικές ευρυζωνικές υπηρεσίες πάνω από το ασύρματο κανάλι επικοινωνίας. / Future wireless communication networks and systems are expected to reliably provide data services with data rate requirements ranging from a few kbps up to some Mbps and, due to the high costs of frequency spectrum, these systems also need to be extremely efficient in terms of the spectrum usage. In particular, the application of transmission schemes based on OFDMA and on MIMO is considered as a promising solution to meet these requirements. On the one hand, MIMO-OFDMA systems are flexible and spectrally efficient but the considerably large number of subcarriers and the inclusion of the space dimension make the RRA in such systems very complex. In fact, the optimum RRA that maximizes the sum of the users' data rates is often too complex for practical application. Consequently, suboptimal rather efficient and low-complexity RRA strategies are required in order to allocate the frequency, power, and space radio resources of the system to the users of the system. This doctoral thesis deals with RRA strategies in the downlink and uplink of OFDMA systems, the downlink of MISO-OFDMA systems, and the downlink of MIMO-OFDMA systems aiming at the maximization of the sum of the users' data rates guaranteeing proportional data rates or minimum data rates among users. In order to solve the problem of maximizing the sum of the users' data rates with affordable complexity in each one of the aforementioned cases, new suboptimal algorithms are proposed. In the SISO downlink the objective is to maximize the sum of the users' data rates subject to constraints on the total available power and proportional data rates among users. The proposed method, which is also complexity effective, consists of three algorithms; an algorithm that determines the number of subcarriers for each user, a subcarrier allocation algorithm by dividing the users in two groups and the water-filling algorithm. The first two algorithms assign the available subcarriers to the users of the system and the third one allocates the available power optimally in order to maximize the sum of the users' data rates. In the SISO uplink the objective is to maximize the sum of the users' data rates subject to constraints on per user power and minimum data rates among users. The proposed scheme, which is also complexity effective, consists of three algorithms; an algorithm that determines the number of subcarriers for each user, a subcarrier allocation algorithm by dividing the users in two groups and the water-filling algorithm. The first two algorithms assign the available subcarriers to the users of the system and the third one allocates the available power. In the MISO downlink three user selection and resource allocation algorithms for multiuser downlink systems are developed that are less complex than other approaches and incorporate fairness. In the first two algorithms proportional constraints among the users' data rates are imposed and in the third algorithm minimum data rate constraints are taken into account. The proposed algorithm that maximizes the sum of the users' data rates with proportional data rate constraints is also applied to DAS and subcarriers are grouped to chunks. Simulation results sustain their effectiveness in distributing the sum data rate fairly and flexibly among users and that in DAS higher sum of the users' data rates are obtained. Finally, in the MIMO downlink the problem is formulated in order to maximize the sum of the users' data rates subject to total available power constraint with controllable bandwidth introducing system parameter α. Since this optimization should be performed in real time, an efficient, suboptimal and complexity effective algorithm is proposed which shows reasonable loss with respect to the unconstrained case where the only target is the maximization of the sum data rate and impressive profit compared to static TDMA scheme. Apart from the theoretical analysis of the above algorithms, simulation code, which was created based on realistic assumptions and simplifications, gave us results which measure the sum of the users' data rates that provide each one of the aforementioned algorithms and examine the possible appropriateness for use in specific environments. The final concluding results are that MIMO-OFDMA systems are able to offer real broadband services over the wireless communication channel. Κατανομή ραδιοπόρων Επιβολή μηδενικών 621.382 16 Multiple input multiple output Space division multiple access Radio resource allocation Radio resource management Zero forcing
212	Simulation performance of multiple-input multiple-output systems employing single-carrier modulation and orthogonal frequency division multiplexing Saglam, Halil Derya 12 1900 (has links) Approved for public release, distribution is unlimited / This thesis investigates the simulation performance of multiple-input multiple-output (MIMO) systems utilizing Alamoutibased space-time block coding (STBC) technique. The MIMO communication systems using STBC technique employing both single- carrier modulation and orthogonal frequency division multiplexing (OFDM) are simulated in Matlab. The physical layer part of the IEEE 802.16a standard is used in constructing the simulated OFDM schemes. Stanford University Interim (SUI) channel models are selected for the wireless channel in the simulation process. The performance results of the simulated MIMO systems are compared to those of conventional single antenna systems. / Lieutenant Junior Grade, Turkish Navy MIMO systems Space time codes Multiplexing Multiple-input Multiple-output (MIMO) Space-time block coding (STBC) Stanford University Interim (SUI) models Spatially correlated MIMO channels Spatial diversity Alamouti scheme Maximal ratio combining
213	Synchronization analysis and simulation of a standard IEEE 802.11g OFDM signal Lowham, Keith D. 03 1900 (has links) Approved for public release, distribution is unlimited / Synchronization of orthogonal frequency-division multiplexed (OFDM) signals is significantly more difficult than synchronization of a single-carrier system. The recently approved IEEE Standard 802.11g specifies a packet-based OFDM system that provides a basis for the discussion of OFDM synchronization in a packet-based environment. Algorithms that synchronize the receiver carrier demodulation frequency and phase, the data frame, the OFDM symbol timing, and the data symbol timing are discussed and analyzed in an AWGN channel. System View simulation is used to implement the frame and carrier frequency synchronization algorithms, where the performance of these algorithms is analyzed and they are shown to be useful detection algorithms for Standard 802.11g signal reception. / Lieutenant Commander, United States Navy IEEE 80211 (Standard) Multiplexing Electrical engineering Synchronization OFDM 802.11 802.11g AWGN PBCC DSSS DSSS-OFDM Synchronization Carrier synchronization Frequency synchronization Phase synchronization Symbol synchronization System view FFT IFFT Cyclic prefix Guard interval Wireless LAN
214	The optimization of multiple antenna broadband wireless communications : a study of propagation, space-time coding and spatial envelope correlation in Multiple Input, Multiple Output radio systems Dia'meh, Yousef Ali January 2013 (has links) This work concentrates on the application of diversity techniques and space time block coding for future mobile wireless communications. The initial system analysis employs a space-time coded OFDM transmitter over a multipath Rayleigh channel, and a receiver which uses a selection combining diversity technique. The performance of this combined scenario is characterised in terms of the bit error rate and throughput. A novel four element QOSTBC scheme is introduced, it is created by reforming the detection matrix of the original QOSTBC scheme, for which an orthogonal channel matrix is derived. This results in a computationally less complex linear decoding scheme as compared with the original QOSTBC. Space time coding schemes for three, four and eight transmitters were also derived using a Hadamard matrix. The practical optimization of multi-antenna networks is studied for realistic indoor and mixed propagation scenarios. The starting point is a detailed analysis of the throughput and field strength distributions for a commercial dual band 802.11n MIMO radio operating indoors in a variety of line of sight and non-line of sight scenarios. The physical model of the space is based on architectural schematics, and realistic propagation data for the construction materials. The modelling is then extended and generalized to a multi-storey indoor environment, and a large mixed site for indoor and outdoor channels based on the Bradford University campus. The implications for the physical layer are also explored through the specification of antenna envelope correlation coefficients. Initially this is for an antenna module configuration with two independent antennas in close proximity. An operational method is proposed using the scattering parameters of the system and which incorporates the intrinsic power losses of the radiating elements. The method is extended to estimate the envelope correlation coefficient for any two elements in a general (N,N) MIMO antenna array. Three examples are presented to validate this technique, and very close agreement is shown to exist between this method and the full electromagnetic analysis using the far field antenna radiation patterns. 621.384
215	A comparison of frequency offset estimation methods in Orthogonal Frequency Division Multiplexing (OFDM) systems Karaoglu, Bulent 12 1900 (has links) Approved for public release; distribution in unlimited. / OFDM is a modulation technique that achieves high data rates, increased bandwidth efficiency and robustness in multipath environments. However, OFDM has some disadvantages, such as sensitivity to channel fading, large peak to average ratio and sensitivity to frequency offset. The latter causes intercarrier interference (ICI) and a reduction in the amplitude of the desired subcarrier which results in loss of orthogonality. In this thesis, the effects of frequency offset are studied in terms of loss of orthogonality. A number of techniques for frequency offset estimation are presented and tested in computer simulations. / Lieutenant Junior Grade, Turkish Navy Multiplexing Space time codes Wireless communication systems Frequency Offset Coarse Frequency Offset Estimation Fine Frequency Offset Estimation IFFT(Inverse Fast Fourier Transform) FFT Cyclic Prefix MATLAB Preamble OFDM Symbol
216	Study of different SOA structures impact on the transmission of IMDD OOFDM signals / Etudes de différentes structures SOA pour la transmission de l'IMDD OFDM Hamze, Mohamad 09 June 2015 (has links) Le travail de thèse porte sur une étude d'impact de différentes structures SOA sur la transmission optique de signaux OFDM modulés en intensité et reçus en détection directe (IMDD-OOFDM), dans le cadre des réseaux d'accès de nouvelle génération (σGPτσ). Dans la première partie du travail, nous avons d’abord validé expérimentalement la modélisation d’un RSτA sur une large plage d’utilisation. Ce modèle a ensuite été implémenté dans le cadre d'une plate-forme de co-simulation pour les systèmes de transmission IMDD-OOFDM et pour la conversion en longueur d'onde de signaux OOFDM avec une validation expérimentale. Une analyse approfondie des performances de transmission a été ensuite menée en termes de puissance optique et de longueur d’onde injectées, de longueur de fibre, de l’émission spontanée amplifiée (ASE), de la bande passante électrique et des non-linéarités du RSτA. Nous avons notamment montré théoriquement qu’une capacité minimale de transmission de 8,9 Gb/s sur 100 km pouvait être atteinte sur une plage de 100 nm avec le RSOA utilisé et avec l’aide d’une modulation adaptative (AMττFDM). Nous avons également démontré expérimentalement, pour la première fois à notre connaissance, la conversion de longueur d'onde de signaux optiques OOFDM-16QAM sur une plage de 70 nm en utilisant l'effet XGM du RSOA. Dans la seconde partie, nous avons développé la modélisation de plusieurs structures de SOA : un SOA à îlots quantiques (QD SOA), un SOA bi-électrodes et deux SOA cascadés en configuration contra-propagative. Nous avons étudiés leurs performances en transmission à l’aide de la modulation AMττFDM. Nous avons montré que ces structures présentent une capacité de transmission allant jusqu’à 30 Gb/s avec des distances de transmission jusqu'à 60 km. Nous avons montré également que le QD-SOA présente de meilleures performances en termes de capacité de transmission pour des distances allant jusqu'à 140 km en comparaison avec les deux autres configurations. / The thesis work deals with study of different SOA structures impact on the transmission of intensity modulation and direct detection OFDM signals in the context of the next generation access networks. In the first part of the work, we have experimentally validated a comprehensive wideband RSOA field model. It was the nused as part of a co-simulation platform for IMDD-OOFDM and OOFDM wavelength conversion transmission systems. Thanks to this co-simulation platform that presents good agreement with the measurement, and our experimental setup, we analyze the transmission performance in terms of optical input power, fiber length, ASEnoise, electrical bandwidth and RSOA nonlinearities. We showed by simulation that an AMOOFDM signal transmission over a 100 nm wavelength range with a minimum transmission capacity of 8.9 Gb/s for fiber lengths up to 100 km can be reached. Finally, we experimentally demonstrated, for the first time to the best of our knowledge, the feasibility of performing wave length conversion over 70 nm of OOFDM-16QAM optical signals using the XGM effect in an RSOA. In the second part of this work we develop a simplified quantum dot –SOA and two electrode SOAintensity modulator models and study their effect on a numerical OFDM IMDD transmission system, we also study a two cascaded SOA in a counter propagating configuration as an intensity modulator. We find that for the three configurations we can achieve a high transmission capacity of around 30 Gb/s for transmission distances up to 60 Km, we also find that the QD-SOA will have the best performance in terms of transmission capacity for distances up to 140 Km in comparison with the two other SOA configurations. SOA réflectif (RSOA) Modulation de type OOFDM Modulation adaptative AMOOFDM Semiconductor optical amplifier (SOA) RSOA QD-SOA AMOOFDM 621.381 045
217	Avaliação de desempenho do enlace reverso de redes celulares que utilizam a técnica CDMA com multiportadoras (MC-CDMA) em um canal rayleigh seletivo em frequência / Performance evaluation of the uplink of cellular networks that employ multicarrier CDMA technique (MC-CDMA) in a frequency selective rayleigh fading channel Carvajal Mora, Henry Ramiro, 1986- 11 September 2018 (has links) Orientador: Celso de Almeida / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Elétrica e de Computação / Made available in DSpace on 2018-09-11T21:24:05Z (GMT). No. of bitstreams: 1 CarvajalMora_HenryRamiro_M.pdf: 10096746 bytes, checksum: 558790b8f1575c8f3b46fe6c7418920d (MD5) Previous issue date: 2014 / Resumo: Neste trabalho, é avaliado o desempenho do enlace reverso de redes celulares que utilizam a técnica de múltiplo acesso por divisão de código com multiportadoras (MC-CDMA) em termos da probabilidade de erro de bit média (BER) e da eficiência espectral média. O sistema de comunicações analisado utiliza a técnica MC-CDMA, um arranjo linear de antenas na estação rádio base, entrelaçamento em frequência, combinação de máxima razão (MRC), modulação adaptativa, controle de potência e um prefixo cíclico grande o suficiente para eliminar os efeitos da interferência intersimbólica (ISI) e da interferência entre portadoras (ICI). O cenário estudado considera a presença de interferência de múltiplo acesso (MAI) e interferência de co-canal (CCI). A caracterização do canal considera a presença de ruído aditivo gaussiano branco (AWGN), perda de propagação exponencial e desvanecimento lento e seletivo em frequência que segue a distribuição de Rayleigh. Neste contexto, expressões analíticas exatas e fechadas para a BER média tanto para a modulação BPSK, quanto para a modulação M-QAM são obtidas. A exatidão das expressões é validada através de simulações de Monte Carlo. Ademais, uma expressão para a eficiência espectral celular média é determinada, a qual é uma função do fator de reuso de canais, do incremento da largura de banda devido ao prefixo cíclico, do carregamento do sistema, do fator de espalhamento, dos raios da célula e da modulação utilizada. Os resultados indicam que utilizar um fator de reuso de canais de 1 é a maneira mais eficiente de usar o espectro. No entanto, esse fator de reuso é crítico em relação às taxas de transmissão. Ademais, evidenciando que a técnica de múltiplo acesso por divisão de frequências ortogonais (OFDMA) é um caso particular da técnica MC-CDMA, os resultados mostram que a máxima eficiência espectral média obtida com a técnica OFDMA é menor do que aquela obtida com a técnica MC-CDMA / Abstract: In this work the performance of cellular networks uplink is evaluated using the multicarrier-code division multiple access (MC-CDMA) technique in terms of the mean bit error rate (BER) and the mean spectral efficiency. The analyzed communications system is supposed to employ the MC-CDMA technique, a linear antenna array in the base station, frequency interleaving, maximal ratio combining (MRC), adaptive modulation, control power and a cyclic prefix large enough to eliminate the effects of intersymbol interference (ISI) and intercarrier interference (ICI). The studied scenario assumes the presence of multiple access interference (MAI) and co-channel interference (CCI). The channel characterizations considers the presence of additive white gaussian noise (AWGN), exponential path-loss and slow and frequency selective Rayleigh fading. In this context, exact and closed analytical expressions for the mean BER for both BPSK modulation, as for M-QAM modulation are obtained. The accuracy of the expressions is validated through Monte Carlo simulations. Also, an expression for the mean cellular spectral efficiency is determined, which is a function of the channel reuse factor, the bandwidth increases due to the cyclic prefix, the system load, the spreading factor, the cell radius and the modulation employed. The results show that using an unitary channel reuse factor of 1 is the most efficient way to use the spectrum. However, this reuse factor is critical in relation to transmission rates. Moreover, considering that the orthogonal frequency division multiple access (OFDMA) technique is a particular case of MC-CDMA, the results show that the maximum mean spectral efficiency achieved with the OFDMA technique is lower than that obtained with the MC-CDMA technique / Mestrado / Telecomunicações e Telemática / Mestre em Engenharia Elétrica Telefonia celular Acesso múltiplo por divisão de código Rádio - Interferência Cellular telephone systems Code division multiple access Radio - Interference
218	Spectral Shape Division Multiplexing (SSDM): Apparatus, Transmitter, Receiver and Detection Holguín-Sánchez, Fausto Daniel 01 June 2012 (has links) Wireless communication companies require to use the frequency spectrum to operate. Both frequency licenses and infrastructure to reuse frequencies are costly resources subject to increasing demand. This work introduces a novel multiplexing method that saves spectrum called Spectral Shape Division Multiplexing (SSDM). Under certain configurations, SSDM displays higher flexibility and throughput than other spectrally efficient methods. SSDM defines the structure of a wireless multi-carrier by software. It is similar to Orthogonal Frequency Division Multiplexing (OFDM) in that both use overlapped sub-carriers to make efficient use of allocated spectrum. However, SSDM has several advantages. Where OFDM organizes sub-carriers orthogonally, SSDM allows arbitrary frequency steps enabling higher spectral efficiency. Similarly, while OFDM and other spectrally efficient methods use sinusoidal pulse forms, SSDM can use non-standard pulses providing a greater control of the carrier. In this thesis, a SSDM transceiver is implemented to reduce the spectrum utilization. SSDM presents an increase in spectral efficiency of 20% average with respect to OFDM. The cost of this gain is higher computational speed and signal to noise ratio. The mathematical models and possible architecture for an SSDM system with sinusoidal pulses is developed. The modem is compared with other spectrally efficient methods. Similarly, the trade-offs between spectral efficiency, bit-error rates, dimension of the carrier and sub-carrier spacing are subject of analysis. shared spectrum multiplexing SSM pulse shape division multiplexing PSDM signal superposition transceiver. Signal Processing Systems and Communications
219	Mise en place d'une couche physique pour les futurs systèmes de radiocommunications hauts débits UWB (Ultra Wide Band) Aubert, Louis-Marie 08 November 2005 (has links) (PDF) L'UWB (Ultra Wide Band) consiste à transmettre des signaux entre 3.1 et 10.6 GHz avec une puissance limitée à -41.3 dBm/MHz. Pour les communications hauts débits (100 à 500 Mbit/s) et courtes portées (1 à 10 m), les solutions de l'état de l'art reposent sur des traitements numériques complexes. Mitsubishi ITE propose une solution alternative multi-bandes (MB) impulsionnelle basée sur un récepteur non-cohérent. La démodulation OOK est effectuée par une détection d'énergie originale avec un seuillage adapté dynamiquement suivant les conditions de propagation. La parallélisation complète de ce système MB-OOK permet à la fois d'éviter les interférences inter-symboles et de récupérer la quasi totalité de l'énergie disponible. En outre, l'approche impulsionnelle limite les évanouissements du signal sur canal multi-trajets. La comparaison des systèmes MB-OOK et MB-OFDM démontre la pertinence de la solution proposée pour des applications très hauts débits, courte portée et faible consommation. [SPI:OTHER] Engineering Sciences/Other UWB (Ultra Wide Band) Radio impulsionnelle Hauts débits Récepteur non-cohérent Traitements quadratiques Multi-bandes MB-OOK (Multi-bandes – On-Off Keying)
220	Low-PAPR, Low-delay, High-Rate Space-Time Block Codes From Orthogonal Designs Das, Smarajit 03 1900 (has links) It is well known that communication systems employing multiple transmit and multiple receive antennas provide high data rates along with increased reliability. Some of the design criteria of the space-time block codes (STBCs) for multiple input multiple output (MIMO)communication system are that these codes should attain large transmit diversity, high data-rate, low decoding-complexity, low decoding –delay and low peak-to-average power ratio (PAPR). STBCs based on real orthogonal designs (RODs) and complex orthogonal designs (CODs) achieve full transmit diversity and in addition, these codes are single-symbol maximum-likelihood (ML) decodable. It has been observed that the data-rate (in number of information symbols per channel use) of the square CODs falls exponentially with increase in number of antennas and it has led to the construction of rectangular CODs with high rate. We have constructed a class of maximal-rate CODs for n transmit antennas with rate if n is even and if n is odd. The novelty of the above construction is that they 2n+1 are constructed from square CODs. Though these codes have a high rate, this is achieved at the expense of large decoding delay especially when the number of antennas is 5or more. Moreover the rate also converges to half as the number of transmit antennas increases. We give a construction of rate-1/2 CODs with a substantial reduction in decoding delay when compared with the maximal- rate codes. Though there is a significant improvement in the rate of the codes mentioned above when compared with square CODs for the same number of antennas, the decoding delay of these codes is still considerably high. For certain applications, it is desirable to construct codes which are balanced with respect to both rate and decoding delay. To this end, we have constructed high rate and low decoding-delay RODs and CODs from Cayley-Dickson Algebra. Apart from the rate and decoding delay of orthogonal designs, peak-to-average power ratio (PAPR) of STBC is very important from implementation point of view. The standard constructions of square complex orthogonal designs contain a large number of zeros in the matrix result in gin high PAPR. We have given a construction for square complex orthogonal designs with lesser number of zero entries than the known constructions. When a + 1 is a power of 2, we get codes with no zero entries. Further more, we get complex orthogonal designs with no zero entry for any power of 2 antennas by introducing co- ordinate interleaved variables in the design matrix. These codes have significant advantage over the existing codes in term of PAPR. The only sacrifice that is made in the construction of these codes is that the signaling complexity (of these codes) is marginally greater than the existing codes (with zero entries) for some of the entries in the matrix consist of co-ordinate interleaved variables. Also a class of maximal-rate CODs (For mathematical equations pl see the pdf file) Signal Processing Complex Orthogonal Designs (CODs) Real Orthogonal Designs (RODs) Space-time Block Codes (STBCs) Coding Theory Square Complex Orthogonal Designs (SCOD) Peak-to-average Power Ratio (PAPR) Cayley-Dickson Algebra Orthogonal Designs Communication Engineering

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