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491	New broadband, low cost and compact MIMO radar frontends Miralles Navarro, Enric 10 September 2018 (has links) En esta disertación industrial, se han abordado una variedad de nuevas ideas. En el capítulo 2, se expone una breve introducción a la teoría básica de los radares tipo MIMO, así como también conceptos esenciales como FMCW, TDM o la estimación de ángulos. En el siguiente capítulo, un radar de tipo MIMO es presentado. En el varias tarjetas de circuitos impresos son apiladas, creando de esta forma, una agrupación de antenas de gran ancho de banda bidimensional. Mis trabajo es presentado en este capítulo, así también como las imágenes radar finales. Al final, el incremento de resolución debido a la técnica MIMO se demuestra exitosamente. Una iteración de el prototipo es presentado en el capítulo 4. Este radar sustituye las múltiples tarjetas impresas por una sola, la cual contiene RSPA basadas en cavidades de aire. Este circuito se ha diseñado con dos cadenas de conmutadores independientes, de tal forma que se dos formas de onda podrían ser enviadas de forma simultánea. Por ello, un radar en tiempo real, como por ejemplo un radar OFMD puede ser probado con este hardware. La característica zona vacía de los radares MIMO ha sido ocupada con una segunda funcionalidad. Primero, con antenas espirales para las comunicaciones y después a cámara, la cual mejora la detección, clasificación y el rastreo de objetivos. El capítulo 5 introduce novedosos componentes de RF, de muy ancho de banda e integrables con tarjetas de circuito impreso como un Divisor Wilkinson y una antena impresa en 3D. Estos componentes han sido diseñado, fabricado y medido de forma satisfactoria. El gran ancho de banda objetivo permite a estos componentes operar para múltiples funciones. El capítulo 6 introduce nuevos componentes clave de bajas pérdidas como el acoplador Moreno y la antena de guía de ondas ranurada en una nueva y prometedora tecnología. ESIW reduce las pérdidas de las guías de ondas integradas eliminando el dieléctrico interno. Estos componentes han sido diseñados, fabricados y medidos. Los prototipos producidos son un primer paso antes de un refinamiento final antes de introducir el producto al mercado. Además, se han explorado tecnología más disruptivas para futuros proyectos. / In this industrial dissertation, a variety of new and creative ideas has been adressed. In Chapter 2, a brief introduction to an existing MIMO radar theory as well as to the neccessary basic concepts of FMCW, TDM and angle estimation has been given. After that, in Chapter 3 a complete and fully functional MIMO radar has been presented. The sandwich approach enabled to stack PCBs to make up a modular bi-dimensional array of very wideband TSA antennas. My contributions to this radar have been presented in detail as well as the final imaging results, in which the increment of the resolution due to the MIMO technique has succesfully been tested. A next iteration of the portotype has been introduced in Chapter 4. This radar replaces the multiple stacked PCBs by a single one, which is populated with air-cavity-based RSPAs. This PCB has been designed with two independent switch chains, in such a manner that the two different waveforms can be sent simultaneously. Therefore, a real time radar, as for instance OFMD can be tested with this hardware. The characteristic inoccupied space at the center of a bidimentional MIMO array is filled with a second funtionality. Firstly, spiral antennas for communication have been designed, integrated and tested. Secondly, the spiral antennas have been cut off. In the remaining hole, a camara, which improves the detection, clasification and tracking of targets, has been placed. Chapter 5 presents new, very broadband (4-40 GHz) and integrable-with-PCBs RF components as a Wilkinson divider and a 3D printed TEM horn antenna. These components have succesfuly been designed, fabricated and tested. The targeted wide frequency range allows the usage of these components for multiple functions. In Chapter 6 new low losses key components as the Moreno cross-guide coupler and slotted waveguide antenna are presented in a new very promising technology. ESIW reduces the loss of the integrated waveguides (SIW) by removing the inner dielectric, following a very interesting fabrication process. These two components have been, designed, fabricated and measured. On one hand, the produced prototypes are the first step towards further Airbus refinement before introducing a product to the market. On the other hand, some disruptive technologies and components have been explored in order to keep track of the following advances in terms of innovation. / En aquesta dissertació industrial, s'han abordat una varietat de noves idees. En el capítol 2, s'exposa una breu introducció a la teoria bàsica dels radars tipus MIMO i conceptes essencials com FMCW, TDM o l'estimació d'angles. En el següent capítol, un radar de tipus MIMO és presentat. Diverses targetes de circuits impresos són apilades, creant d'aquesta manera, una agrupació d'antenes bidimensional de gran ample de banda. El meu treball és presentat en aquest capítol, així també com les imatges radar finals. Al final, l'increment de resolució a causa de la tècnica MIMO es demostra amb èxit. La següent iteració del prototip és presentada al capítol 4. Aquest radar substitueix les múltiples targetes impreses per una sola, la qual conté RSPA basades en cavitats d'aire. Aquest circuit s'ha dissenyat amb dues cadenes de commutadors independents, de tal manera que dues formes d'ona podrien ser enviades de forma simultània. Per això, un radar en temps real, com per exemple un radar OFMD pot ser provat amb aquest radar. La característica zona buida dels radars MIMO ha estat ocupada amb una segona funcionalitat. Primer, amb antenes espirals per a les comunicacions i després per a càmera, la qual millora la detecció, classificació i el rastreig d'objectius. El capítol 5 introdueix nous components de RF, de molt ample de banda i integrables amb targetes de circuit imprès com un Divisor Wilkinson i una antena impresa en 3D. Aquests components han estat dissenyats, fabricats i mesurats de forma satisfactòria. El gran ample de banda objectiu permet a aquests components operar per a múltiples funcions. El capítol 6 introdueix nous components clau de baixes pèrdues com el acoblador Moreno i l'antena de guia d'ones ranurada en una nova i prometedora tecnologia. ESIW redueix les pèrdues de les guies d'ones integrades eliminant el dielèctric intern. Aquests components han estat dissenyats, fabricats i mesurats. Els prototips produïts són un primer pas abans d'un refinament final abans d'introduir el producte al mercat. A més, s'han explorat tecnologia més disruptives per a futurs projectes. / Miralles Navarro, E. (2018). New broadband, low cost and compact MIMO radar frontends [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/107960 MIMO Radar Antenna Microwave TEORIA DE LA SEÑAL Y COMUNICACIONES
492	Minimization of Mutual Coupling Using Neutralization Line Technique for 2.4 GHz Wireless Applications Marzudi, W.N.N.W., Abidin, Z.Z., Muji, S.Z.M., Ma, Y., Abd-Alhameed, Raed January 2015 (has links) No / This paper presented a planar printed multiple-input-multiple-output (MIMO) antenna with a dimension of 100 x 45 mm2. It composed of two crescent shaped radiators placed symmetrically with respect to the ground plane. Neutralization line applied to suppress mutual coupling. The proposed antenna examined both theoretically and experimentally, which achieves an impedance bandwidth of 18.67% (over 2.04-2.46 GHz) with a reflection coefficient < -10 dB and mutual coupling minimization of < -20 dB. An evaluation of MIMO antennas is presented, with analysis of correlation coefficient, total active reflection coefficient (TARC), capacity loss and channel capacity. These characteristics indicate that the proposed antenna suitable for some wireless applications. Mutual coupling Neutralisation line technique Wireless applications MIMO
493	A printed wideband MIMO antenna for mobile and portable communication devices See, Chan H., Elkhazmi, Elmahdi A., Samarah, Khalid G., Al Khambashi, Majid S., Abd-Alhameed, Raed, McEwan, Neil J., Excell, Peter S. 17 December 2015 (has links) No / A printed crescent-shaped monopole MIMO antenna is presented for handheld wireless communication devices. The mutual coupling between the two antenna elements can be minimised by implementing a I-shaped common radiator. Both the simulated and measured results agree that the antenna covers the operating frequency band from 1.6 to 2.8 GHz with the return loss and isolation better than 10 dB and 14 dB respectively. To further verifying the MIMO characteristic including far-field, gain, radiation efficiency, channel capacity loss and envelope correlation, the results confirm that the antenna can operate effectively in a rich multipath environment. MIMO Mutual coupling Channel capacity loss Envelope correlation
494	Improved multi-antenna system capacity using beamformer weights Anoh, Kelvin O.O., Elkhazmi, Elmahdi A., Abd-Alhameed, Raed, Madubuko, O., Bin-Melha, Mohammed S., Jones, Steven M.R., Ghazaany, Tahereh S. January 2013 (has links) No / Beamforming is used to achieve diversity gain. It is a technique in diversity to remedy power penalty due to channel fading. The beam-weights for multi-antenna system are evaluated for two different approaches. These weights are then used to weight the signal beams of each transmit antenna branch. Results reveal that by exploiting the transmit channel substructures exposed by the singular vector decomposition algorithm, the capacity of a multi-antenna system can be enhanced. Diversity Beamforming Weights Multiple-Inputs Multiple-Outputs MIMO Capacity
495	Directional and Isolated UWB-MIMO Antenna Based Uniplanar UWB-FSS Array and T-strip for Bi-static Microwave Imaging: Baggage-Scanner Abdulhasan, R.A., Alias, R., Ramli, K.N., Seman, F.C., Abd-Alhameed, Raed, Jawhar, Y.A. 12 November 2021 (has links) Yes / This article presented a novel compact multi-input-multi-output (MIMO) hexagonal monopole antenna with a uniplanar compact frequency-selective-surface (FSS) array for microwave imaging (MWI). The ultra-wideband (UWB) dual-element linear MIMO antenna was designed on the FR4 substrate with 50 Ω coplanar waveguide feed, T-strip isolation, novel numerical calculation, and equivalent circuit analyses. The main issues of realising high-resolution images based on planer UWB antenna for MWI are the low gain, omnidirectional pattern, design size, and mutual coupling of MIMO design. A novel technique was proposed to solve a hybrid issue (mutual coupling) of the MIMO reflected-waves from the FSS array and direct-wave. The uniplanar UWB-FSS unit cell was compacted by combining a square-loop and cross-dipole with a size of 0.095λ×0.095λ. The novel isolated UWB-MIMO antenna and UWB-FSS array (IMAF) were integrated, after investigating the distance between the antenna and FSS. The fabricated IMAF with a stable gain improvement of 4.5 dBi higher than the antenna without FSS, directional radiation pattern, size of 30×73.8×21.6 mm3 observed that a low mutual coupling of -27 dB, and operation bandwidth of 3.0-11.7 GHz. Moreover, a handbag was scanned experimentally via the bi-static approach to detect a small concealed object. The MWI system based on the MIMO antenna with FSS was displayed image resolution of 55% higher than that of MIMO antenna without FSS. The new baggage-scanner approach confirmed that the proposed MIMO antenna with FSS array can lead the humanity for healthy MWI applications. MIMO antenna UWB FSS
496	Four-Element/Eight-Port MIMO Antenna System with Diversity and Desirable Radiation for Sub 6 GHz Modern 5G Smartphones Parchin, N.O., Amar, A.S.I., Darwish, M., Moussa, K.H., See, C.H., Abd-Alhameed, Raed, Alwadai, N.M., Mohamed, H.G. 26 December 2022 (has links) Yes / In this manuscript, a multiple-input multiple-output (MIMO) antenna array system with identical compact antenna elements providing wide radiation and diversity function is introduced for sub 6 GHz fifth-generation (5G) cellular applications. The introduced design contains four pairs of miniaturized square-loop resonators with dual-polarization and independently coupled T-shaped feed lines which have been placed symmetrically at the edge corners of the smartphone mainboard with an overall size of 75 mm × 150 mm. Therefore, in total, the introduced array design encompasses four pairs of horizontally and vertically polarized resonators. The elements are very compact and utilize at 3.6 GHz, a potential 5G candidate band. In order to improve the frequency bandwidth and radiation coverage, a square slot has been placed and excited under each loop resonator. Desirable isolation has been observed for the adjacent elements without any decoupling structures. Therefore, they can be considered self-isolated elements. The presented smartphone antenna not only exhibits desirable radiation but also supports different polarizations at various sides of the printed circuit board (PCB). It exhibits good bandwidth of 400 MHz (3.4-3.8 GHz), high-gain patterns, improved radiation coverage, and low ECC/TARC (better than 0.004 and -30 dB at 3.6 GHz, respectively). Experimental measurements were conducted on an array manufactured on a standard smartphone board. The simulated properties of this MIMO array are compared with the measurements, and it is found that they are in good agreement. Furthermore, the introduced smartphone array offers adequate efficiency in both the user interface and components integrated into the device. As a result, it could be suitable for 5G handheld devices. / The authors extend their appreciation to the Deputyship for Research & Innovation, Ministry of Education in Saudi Arabia for funding this research work through project number RI-44-0422. 5G Loop resonators MIMO Mobile communications Smartphone antenna
497	Mechanisms for Enhancing Spectrum Utilization in a Spectrum Access System Ullah, Abid 07 March 2017 (has links) Multi-antenna systems with resource allocation based on transmit and receive precoding matrices have proven to enhance the spectral efficiency of cellular systems. In this thesis, we extend these concepts to a spectrum sharing system with primary users and secondary users. The spectrum sharing area is modeled as an array of transmit and receive antennas, with the transmit power constraint defined as a function of the interference threshold of the primary user. The area covered by a database enabled spectrum access system is represented as spatial bins, which are regions of predefined sizes. Each bin is assumed to have a single secondary user base station and all the resources of that bin (i.e., available frequencies, transmit power, etc.) are consumed by this secondary user in that bin. With these assumptions, the service area of the database can be represented by a grid of secondary users. Such a grid of secondary users forms a array of transmit antennas with secondary users in each bin. Furthermore, the set of bins with its secondary users at the edge of the exclusion zone of the primary user are assumed to create an array of receive antennas. These receive antennas act as sensors that will measure the interference power at the edge of the exclusion zone of the primary users. So the overall system of secondary user base station transmit and receive antennas can be modeled as a multi-element antenna array system. A regulatory interference threshold (I<sub>th</sub>) is defined for protection of the primary user at the edge of exclusion zones. This interference threshold is used by the resource allocation algorithms in the spectrum access system to calculate the transmit and receive precoding matrices for the secondary user antenna array. Using multiple-input multiple-output theory, the receive antenna array will measure the interference from the transmit antenna array and a feedback mechanism will update the resource allocation to keep the power at the receive array below the interference threshold of the primary user. For each array, the transmit/receive matrix is a beamforming vector which consists of a set of weights, one for each antenna. Furthermore, a codebook-based strategy is used by the spectrum access system database to choose a transmit matrix from the codebook which minimizes the interference at the primary user. The overall spectrum sharing system can be represented by a model based on four design parameters, namely, Δ = (I<sub>th</sub>, P, V, B), where P is the transmit power constraint, V are the transmit and receive beamforming matrices, and B is the matrix with active secondary user base stations of the antenna array or the quality of service level of the secondary users. The Δ parameter is called the system index of the spectrum sharing system. We apply the multi-antenna model to the challenging problem of spectrum sharing where the primary users operational parameters, such as transmit power levels, waveform types, and service modes, can change with time. Moreover, there are several types of primary users in different bands. Most of these users are federal government systems and their operational parameters are not available to the spectrum access system database. Our framework is useful in sharing spectrum with federal primary users, since only the interference threshold is needed for sharing their bands. Furthermore, we quantify the uncertainty in the availability of these bands for secondary users and the variations in achievable capacity with sharing spectrum in these bands. / Ph. D. / The goal of this thesis is to build a Protected Shared Access Model (PSAM) [1] through database enabled Spectrum Access System (SAS). A model for the SAS is proposed, which is based on our vision for the SAS as a more dynamic and responsive architecture as a geolocation database than the current TVWS database. Major functions and capabilities of the model include, calculations of exclusion zone (EZ) of primary users with different operational parameters, use interference estimation techniques for predicting interference levels that will be generated by the new secondary users (SUs) and existing systems operating in the database service area, allocate location based transmit power levels and provide an algorithm for communications among the PUs, SUs, and the SAS to implement management and authorization framework of spectrum resources to different types of SUs. The selection of a propagation model is of utmost importance in spectrum sharing studies. Existing literature on EZs with simplified propagation models does not consider the effect of LOS interference between the PU to SU link and SU to PU link on peak points in the terrain area around the PU. The use of a terrain profile based model captures the essence of propagation over irregular terrain. Terrain regions that are far away from the PU may have a LOS between the PU and SU. So its not only the nearest area where the PU/SU can get interference, but interference is present from areas further away on high grounds having a direct LOS with the PU antenna. The exclusion zone computation with terrain profile based propagation model captures this effect, and it is the same effect that makes the shape of the exclusion zone irregular. So the propagation model used in spectrum sharing studies must be able to use the terrain for the specific geographical area for precise propagation calculations, and provide statistical reliability parameters for the computed propagation values for area of interest. For a multi-tier shared access model with incumbent access (IA) users, priority access (PA) users and general authorized access (GAA) users. The SU interference tolerance thresholds varies by the type of SU’s i-e., PA users like public safety systems and mission critical users have low tolerance for interference and hence need to operate further from the PU. While GAA users like commercial broadband systems have higher interference tolerances and can operate closer to the PU. This multi-tier shared access model requires varying levels of interference protection from PU, that can be provided with multiple exclusion zones [2] defined for different types of SU’s. We propose the concept of <i>differential spectrum access hierarchy</i>, and define it in the context of a multi-tiered EZs that are based on quantiles of tolerable interference levels for different tiers of SUs. We also quantify and show the gain in SU capacity (or throughput) obtained by using multi-tiered EZs for different tiers of SUs. Using simulation results, we show that the size of EZs can be significantly reduced with the use of a terrain profile-based propagation model that takes into account terrain profile for signal attenuation between PUs and SUs in the P2P link. The exclusion zones involve the use of interference test points at the circumference of the protection contour of the PU. They are monitoring test points that the SAS uses with a propagation model and locations of SUs to calculate interference [3]. Consider a model of Figure 5.1, the coexistence environment with PU, SU and the SAS with a database. As more SUs enter the system, their transmit powers creates interference for the PUs. In the event of SU interference exceeding a predefined threshold level at any of the test points, the SAS uses an interference based power control algorithm to turnoff the nearest dominant interferer’s. Turning off the dominant interferers eliminates interference generated by that node at the PU. This nearest node interference cancellation significantly reduces the outage probability at the PU. Unlike existing metrics for spectrum utilization efficiency that considers separate metrics for PU interference protection and maximum use of the band for secondary use [4] [5]’we define a new metric for spectrum utilization efficiency. This metric uses utility functions and cost functions to measure the impact of secondary use of the spectrum on PUs as well as the degree of satisfaction SUs can achieve from reuse of such spectrum [6]. The new spectrum utilization metric is used to evaluate tradeoffs between interference protection of PUs and SU spectrum utilization. Spectrum Management MIMO Beamforming Exclusion Zones Propagation Models
498	Optimisation des transmissions dans les réseaux de capteurs sans fil par technique MIMO coopératif à boucle fermée en environnement perturbé / Optimization of transmissions in wireless sensor networks by closed-loop cooperative MIMO in perturbed environment Oyedapo, Olufemi James 15 September 2014 (has links) Le système MIMO coopératif est une solution attrayante dans un environnement où les trajets multiples signalent s'avérer être une étape stimulante pour le lien paire communication émetteur-récepteur. En effet, la diversité spatiale fournis par les émetteurs et recievers peut être exploitée pour améliorer la qualité du signal. Cette thèse étudie l'application de la boucle fermée précodeur MIMO pour réduire encore plus l'énergie de transmission dans un tel environnement. La contribution de cette thèse est de proposer des approches globales qui conduisent à l'optimisation globale des transmissions dans le système MIMO coopératif. Tout d'abord, on exploite la diversité spatiale des noeuds, et proposons une technique de sélection de noeud pour réduire l'énergie de transmission. Les noeuds sont sélectionnées en utilisant le linéaire boucle fermée MIMO précodeur max-dmin qui optimise la distance minimale (dmin) de critère pour réduire le BER de la constellation reçue, ce qui abaisse le rapport requis signal sur bruit (SNR). Deuxièmement, nous sommes motivés par une obligation de rendre les paramètres d'évaluation des performances MIMO disponibles aux couches supérieures du protocole. Ainsi, nous proposons une méthode théorique pour obtenir la fonction de distribution de probabilité (pdf) de dmin pour le précodeur max-dmin, nous utilisons le résultat de rapprocher le BER et de la capacité ergodique pour un système MIMO et une valeur de M en utilisant deux sous-canaux dans d'une manière rapide. Nous présentons un scénario qui exige que l'information pertinente soit détectée à partir d'une variété de sources situées à l'intérieur de la haute tension (HT) environnement du poste de réseau intelligent (SG) des applications. Notre contribution comprend le développement d'un outil de simulation basé sur la technique de sélection de noeuds pour le max-dmin distribué MIMO précodage. Pour tenir compte des interactions entre les couches multiples de communication, nous proposons de concevoir un système de communication MIMO coopératif complet basé sur un protocole d'échange de base qui est liée à notre scénario de transmission supposé. On construit en outre toutes les trames de sous-couche MAC, qui sont transmis dans ce système limité par le coût de l'énergie et de la synchronisation. / Cooperative MIMO system worked from the spatial diversity provided by the transmitters and receivers locations to improve the quality of service in the communication exchange. In our work, we explored the application of closed-loop MIMO precoder to further limit the energy of transmission in such environment. Our contribution is to propose approaches that lead to global optimization of transmissions in cooperative MIMO system. Firstly, we exploit spatial diversity of nodes, and then a node selection technique to reduce the energy of transmission. The nodes are selected using the max-dmin linear closed-loop MIMO precoder which, optimizes the minimum distance (dmin) criterion to reduce the Bit Error Rate of the received constellation, thereby lowering the required signal-to-noise ratio. Secondly, we are motivated by a requirement to make the MIMO performance evaluation parameters available to higher protocol layers. Thus, we propose a theoretical method to derive the probability distribution function of dmin for the max-dmin precoder, then we use the result to approximate the Bit Error Rate and ergodic capacity for any MIMO system and any value of modulation size M using 2 subchannels in a rapid manner. To achieve our objective, we present a realistic scenario from an existing application case where data must be collected from a variety of sources located inside a high voltage substation environment (smart grid applications). Our contribution involves the development of a simulation tool based on node selection technique for the max-dmin distributed MIMO precoding. Finally, inside this transmission scenario, we propose a complete communication system based on a basic exchange protocol. We further construct all the MAC sub layer frames that are transmitted in this system constrained by energy and synchronization cost. Ddp MIMO boucle-Fermée Précodeurs Réseaux capteurs Smart-Grids Teb Ber Closed-Loop MIMO Pdf Precoders Smart-Grid Wsn 621.384
499	Estudo e implementação de sinais de excitação aplicados em identificação de sistemas multivariáveis. / Study and implementation of excitation signals applied in multivariable system identification. Núñez Larrotta, Fabian 30 March 2015 (has links) Devido à crescente implementação do Controle Preditivo baseado em Modelo (MPC) em outros processos além de refino e plantas petroquímicas, que geralmente possuem múltiplas entradas e saídas, tem-se um aumento na demanda de modelos gerados por identificação de sistemas. Identificar modelos que representem fielmente a dinâmica do processo depende em grande medida das características dos sinais de excitação dos processos. Assim, o foco deste trabalho é realizar um estudo dos sinais típicos usados em identificação de sistemas, PRBS e GBN, em uma abordagem multivariável. O estudo feito neste trabalho parte das características da geração dos sinais individualmente, depois é feita uma análise de correlação cruzada dos sinais de entrada, observando a influência desta sobre os resultados de identificação. Evitar uma alta correlação entre os sinais de entrada permite determinar o efeito de cada entrada sobre a saída no processo de identificação. Um ponto importante no projeto de sinais de identificação de sistemas multivariáveis é a frequência dos mesmos para conseguir excitar os processos nas regiões de frequência de operação normal e assim extrair a maior informação dinâmica possível do processo. As características estudadas são avaliadas por meio de testes em três plantas simuladas diferentes, categorizadas como mal, medianamente e bem condicionadas. Estas implementações foram feitas usando sinais GBN e PRBS de diferentes frequências. Expressões para a caracterização dos sinais de excitação foram avaliadas identificando os processos em malha aberta e malha fechada. Para as plantas mal condicionadas foram implementados sinais compostos por uma parte completamente correlacionada e uma parte não-correlacionada, conhecido como método de dois passos. Finalmente são realizados experimentos de identificação em uma aplicação em tempo real de uma planta piloto de neutralização de pH. Os testes realizados na planta foram feitos visando avaliar os estudos de frequência e correlação em uma aplicaficção real. Os resultados mostram que a condição de sinais completamente descorrelacionados n~ao deve ser cumprida para ter bons resultados nos modelos identificados. Isto permite ter mais exibilidade na geração do conjunto de sinais de excitação. / Due to the Predictive Control based on Model (MPC) rising in other process beyond refining and petrochemical plants, which in general have multiple inputs and outputs, there have been an increase in demand of models generated by system identification. Identify models that accurately represent the dynamics of the process depends largely on the characteristics of the processes excitation signals. Thus, the focus of this work is to perform a study of the typical signals used in identification systems, PRBS and GBN, in a multivariable approach. The study carried out in this work begins on the individual generation characteristics of the signals, and then an analysis is made of input signals cross-correlation, by observing the in uence of this on the identification results. Avoid a high correlation among the input signals allows to determine the effect of each input on the output of the identification process. An important point in the signals design for multivariable system identification is its frequency to get excite the processes in the normal operation frequency regions and thus extract the maximum dynamic information possible of the process. The studied characteristics are evaluated by testing three different simulated plants, categorized as well, medium and ill conditioned. These implementations were made using GBN and PRBS signals of dierent frequencies. Expressions to characterize the excitation signals were evaluated identifying the processes in open and closed-loop. For ill-conditioned plants were implemented signals composed by a fully correlated part and a non-correlated part, known as two-step method. Finally, identification experiments are performed on a real time application in a pilot pH neutralization plant. The tests were made in the plant in order to evaluate the frequency and correlation studies in a real application. The results show that the completely uncorrelated signals condition must not be satisfied to have good results on the identified models, which besides allows greater exibility in the generation of the excitation signals set. Correlação cruzada Cross-correlation GBN signal Identificação de sistemas Identificação MIMO Identification systems MIMO identification PRBS signal Sinal GBN Sinal PRBS
500	Low Complexity Space-Time coding for MIMO systems. / Codes Espace-Temps à Faible Complexité pour Systèmes MIMO Ismail, Amr 24 November 2011 (has links) Les dernières années ont témoigné une augmentation spectaculaire de la demande des communications sans-fil à taux élevé. Afin de répondre à ces nouvelles exigences, le recours aux techniques Multiple-Input Multiple-Output (MIMO) était inévitable, car ils sont capables d’assurer une transmission fiable des données à haut débit sans l’allocation de bande passante supplémentaire. Dans le cas où l’émetteur ne dispose pas d’information sur l’état du canal, les techniques de codage spatio-temporel se sont avérées d’exploiter efficacement les degrés de liberté du canal MIMO tout en profitant du gain de diversité maximal. D’autre part, généralement la complexité de décodage ML des codes espace-temps augmente de manière exponentielle avec le taux ce qui impose un défi important à leur incorporation dans les normes récentes de communications. Reconnaissant l’importance du critère de faible complexité dans la conception des codes espace-temps, nous nous concentrons dans cette thèse sur les codes espace-temps en bloc où la matrice du code peut être exprimée comme une combinaison linéaire des symboles réels transmis et nous proposons des nouveaux codes qui sont décodables avec une complexité inférieure à celle de leurs rivaux dans la littérature tout en fournissant des meilleurs performances ou des performances légèrement inférieures. / The last few years witnessed a dramatic increase in the demand on high-rate reliable wireless communications. In order to meet these new requirements, resorting to Multiple-Input Multiple-Output (MIMO) techniques was inevitable as they may offer high-rate reliable wireless communications without any additional bandwidth. In the case where the transmitter does not have any prior knowledge about the channel state information, space-time coding techniques have proved to efficiently exploit the MIMO channel degrees of freedom while taking advantage of the maximum diversity gain. On the other hand, the ML decoding complexity of Space-Time Codes (STCs) generally increases exponentially with the rate which imposes an important challenge to their incorporation in recent communications standards. Recognizing the importance of the low-complexity criterion in the STC design for practical considerations, this thesis focuses on the design of new low-complexity Space-Time Block Codes (STBCs) where the transmitted code matrix can be expressed as a weighted linear combination of information symbols and we propose new codes that are decoded with a lower complexity than that of their rivals in the literature while providing better or slightly lower performance. MIMO STBC Diversité spatiale Systèmes de communications Faible complexité MIMO STBC Spatial diversity Communication systems Worst-case complexity 378.242

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