983 resultados para Conventional matching networks
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In this paper, we introduce two kinds of graphs: the generalized matching networks (GMNs) and the recursive generalized matching networks (RGMNs). The former generalize the hypercube-like networks (HLNs), while the latter include the generalized cubes and the star graphs. We prove that a GMN on a family of k-connected building graphs is -connected. We then prove that a GMN on a family of Hamiltonian-connected building graphs having at least three vertices each is Hamiltonian-connected. Our conclusions generalize some previously known results.
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Current QKD designs try to keep the quantum channel as error free as possible by using a separate physical medium for this purpose. In the most common case, this means the exclusive use of an optical fiber for the quantum channel, precluding its use for any other purpose. In current optical networks, the fiber is the single most expensive element and this poses a major problem from a cost and availability point of view. Sharing the fiber is thus mandatory for the widespread adoption of QKD. The objective of this communication is to propose a general scheme and present some preliminary measurements of a metropolitan area network (MAN) designed to multiplex of the order of 64 addressable quantum channels and the associated QKD classical service signals on a single dark fibre. It uses as much existing components and infraestructure as possible in an attempt to simultaneously lower most of the practical barriers for the adoption of QKD.
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Vita.
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This article presents applications of reconfigurable matching networks for RF amplifier design. Two possible solutions are given, one where the switching element is a PIN diode, and the other is based on graphene. Due to the fact that its conductivity depends on applied bias voltage, the graphene-based circuits can be used in microwave circuits as controllable elements. The structure of the proposed switch is very simple and it is particularly convenient for microstrip-based circuits. Because of that, a design of reconfigurable amplifier with the graphene-based switch is presented together with the one which has the PIN diode switch. Both amplifiers have the same specifications, and the one with the PIN diode switch is fabricated. The amplifier utilizing the PIN switch was used as a reference to make a comparison the two types of switches. Results of both amplifiers are very similar which indicates possible future applications of the graphene-based switch.
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Dans le domaine des neurosciences computationnelles, l'hypothèse a été émise que le système visuel, depuis la rétine et jusqu'au cortex visuel primaire au moins, ajuste continuellement un modèle probabiliste avec des variables latentes, à son flux de perceptions. Ni le modèle exact, ni la méthode exacte utilisée pour l'ajustement ne sont connus, mais les algorithmes existants qui permettent l'ajustement de tels modèles ont besoin de faire une estimation conditionnelle des variables latentes. Cela nous peut nous aider à comprendre pourquoi le système visuel pourrait ajuster un tel modèle; si le modèle est approprié, ces estimé conditionnels peuvent aussi former une excellente représentation, qui permettent d'analyser le contenu sémantique des images perçues. Le travail présenté ici utilise la performance en classification d'images (discrimination entre des types d'objets communs) comme base pour comparer des modèles du système visuel, et des algorithmes pour ajuster ces modèles (vus comme des densités de probabilité) à des images. Cette thèse (a) montre que des modèles basés sur les cellules complexes de l'aire visuelle V1 généralisent mieux à partir d'exemples d'entraînement étiquetés que les réseaux de neurones conventionnels, dont les unités cachées sont plus semblables aux cellules simples de V1; (b) présente une nouvelle interprétation des modèles du système visuels basés sur des cellules complexes, comme distributions de probabilités, ainsi que de nouveaux algorithmes pour les ajuster à des données; et (c) montre que ces modèles forment des représentations qui sont meilleures pour la classification d'images, après avoir été entraînés comme des modèles de probabilités. Deux innovations techniques additionnelles, qui ont rendu ce travail possible, sont également décrites : un algorithme de recherche aléatoire pour sélectionner des hyper-paramètres, et un compilateur pour des expressions mathématiques matricielles, qui peut optimiser ces expressions pour processeur central (CPU) et graphique (GPU).
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The design of a compact, single feed, dual frequency dual polarized and electronically reconfigurable microstrip antenna is presented in this paper. A square patch loaded with a hexagonal slot having extended slot arms constitutes the fundamental structure of the antenna. The tuning of the two resonant frequencies is realized by varying the effective electrical length of the slot arms by embedding varactor diodes across the slots. A high tuning range of 34.43% (1.037–1.394 GHz) and 9.27% (1.359–1.485 GHz) is achieved for the two operating frequencies respectively, when the bias voltage is varied from 0 to −30 V. The salient feature of this design is that it uses no matching networks even though the resonant frequencies are tuned in a wide range with good matching below −10 dB. The antenna has an added advantage of size reduction up to 80.11% and 65.69% for the two operating frequencies compared to conventional rectangular patches.
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In this paper, a cross-layer solution for packet size optimization in wireless sensor networks (WSN) is introduced such that the effects of multi-hop routing, the broadcast nature of the physical wireless channel, and the effects of error control techniques are captured. A key result of this paper is that contrary to the conventional wireless networks, in wireless sensor networks, longer packets reduce the collision probability. Consequently, an optimization solution is formalized by using three different objective functions, i.e., packet throughput, energy consumption, and resource utilization. Furthermore, the effects of end-to-end latency and reliability constraints are investigated that may be required by a particular application. As a result, a generic, cross-layer optimization framework is developed to determine the optimal packet size in WSN. This framework is further extended to determine the optimal packet size in underwater and underground sensor networks. From this framework, the optimal packet sizes under various network parameters are determined.
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Dissertação apresentada na faculdade de Ciências e Tecnologia da Universidade Nova de Lisboa para a obtenção do grau de Mestre em Engenharia Electrotécnica e de Computadores
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In this work,we investigate novel designs of compact electronically reconfigurable dual frequency microstrip antennas with a single feed,operating mainly in L-band,without using any matching networks and complicated biasing circuitry.These antennas have been designed to operate in very popular frequency range where a great number of wireless communication applications exist.Efforts were carried out to introduce a successful,low cost reconfigurable dual-frequency microstrip antenna design to the wireless and radio frequency design community.
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Desde la aparición de Internet, hace ya más de 20 años ha existido por parte de diversos sectores de la sociedad, científicos, empresas, usuarios, etc. la inquietud por la aplicación de esta tecnología a lo que se ha dado en llamar “El Internet de las Cosas”, que no es más que el control a distancia de cualquier elemento útil o necesario para la vida cotidiana y la industria. Sin embargo el desarrollo masivo de aplicaciones orientadas a esto, no ha evolucionado hasta que no se han producido avances importantes en dos campos: por un lado, en las Redes Inalámbricas de Sensores (WSN), redes compuestas por un conjunto de pequeños dispositivos capaces de transmitir la información que recogen, haciéndola llegar desde su propia red inalámbrica, a otras de amplia cobertura y por otro con la miniaturización cada vez mayor de dispositivos capaces de tener una autonomía suficiente como para procesar datos e interconectarse entre sí. Al igual que en las redes de ordenadores convencionales, las WSN se pueden ver comprometidas en lo que a seguridad se refiere, ya que la masiva implementación de estas redes hará que millones de Terabytes de datos, muchas veces comprometidos o sometidos a estrictas Leyes de protección de los mismos, circulen en la sociedad de la información, de forma que lo que nace como una ventaja muy interesante para sus usuarios, puede convertirse en una pesadilla debido a la amenaza constante hacia los servicios mínimos de seguridad que las compañías desarrolladoras han de garantizar a los usuarios de sus aplicaciones. Éstas, y con el objetivo de proveer un ámbito de seguridad mínimo, deben de realizar un minucioso estudio de la aplicación en particular que se quiere ofrecer con una WSN y también de las características específicas de la red ya que, al estar formadas por dispositivos prácticamente diminutos, pueden tener ciertas limitaciones en cuanto al tamaño de la batería, capacidad de procesamiento, memoria, etc. El presente proyecto desarrolla una aplicación, única, ya que en la actualidad no existe un software con similares características y que aporta un avance importante en dos campos principalmente: por un lado ayudará a los usuarios que deseen desplegar una aplicación en una red WSN a determinar de forma automática cuales son los mecanismos y servicios específicos de seguridad que se han de implementar en dicha red para esa aplicación concreta y, por otro lado proporcionará un apoyo extra a expertos de seguridad que estén investigando en la materia ya que, servirá de plataforma de pruebas para centralizar la información sobre seguridad que se tengan en ese momento en una base de conocimientos única, proporcionando también un método útil de prueba para posibles escenarios virtuales. ABSTRACT. It has been more than 20 years since the Internet appeared and with it, scientists, companies, users, etc. have been wanted to apply this technology to their environment which means to control remotely devices, which are useful for the industry or aspects of the daily life. However, the huge development of these applications oriented to that use, has not evolve till some important researches has been occurred in two fields: on one hand, the field of the Wireless Sensor Networks (WSN) which are networks composed of little devices that are able to transmit the information that they gather making it to pass through from their wireless network to other wider networks and on the other hand with the increase of the miniaturization of the devices which are able to work in autonomous mode so that to process data and connect to each other. WSN could be compromised in the matter of security as well as the conventional computer networks, due to the massive implementation of this kind of networks will cause that millions of Terabytes of data will be going around in the information society, thus what it is thought at first as an interesting advantage for people, could turn to be a nightmare because of the continuous threat to the minimal security services that developing companies must guarantee their applications users. These companies, and with the aim to provide a minimal security realm, they have to do a strict research about the application that they want to implement in one WSN and the specific characteristics of the network as they are made by tiny devices so that they could have certain limitations related to the battery, throughput, memory, etc. This project develops a unique application since, nowadays, there is not any software with similar characteristics and it will be really helpful in mainly two areas: on one side, it will help users who want to deploy an application in one WSN to determine in an automatically way, which ones security services and mechanisms are those which is necessary to implement in that network for the concrete application and, on the other side, it will provide an extra help for the security experts who are researching in wireless sensor network security so that ti will an exceptional platform in order to centralize information about security in the Wireless Sensor Networks in an exclusive knowledge base, providing at the same time a useful method to test virtual scenarios.
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Actualmente las redes VSAT (Very Small Aperture Terminal) están adquiriendo una mayor importancia en las comunicaciones por satélite debido a las nuevas aplicaciones que se están desarrollando tanto a nivel empresarial como a nivel de usuario final. El presente proyecto pretende hacer un estudio de este tipo de red para presentarla como una solución al problema de querer conectar estaciones dispersas, que por el perfil del terreno hace difícil la conexión de las mismas a través de las redes terrestres convencionales. Los nuevos estándares están haciendo que este tipo de redes proliferen muy deprisa ya que se consigue una mayor flexibilidad que con los estándares precedentes para este tipo de red. En concreto, en este proyecto se ha estudiado el estándar abierto DVB-S desarrollado por el grupo de trabajo DVB por ser uno de los más aceptado internacionalmente. Para comprender este sistema de comunicaciones, el proyecto está estructurado en dos partes. En la primera parte se hace una revisión de cómo han evolucionado las comunicaciones satelitales VSAT, indicando las ventajas y desventajas de su implementación y sobre todo la orientación que éstas muestran a la utilización de los estándares DVB. Posteriormente se realiza un estudio de los estándares DVB-S y DVBRCS en donde se profundiza en conceptos claves tales como el Multiplexado de Transporte MPEG-2, los mecanismos de envío de mensajes de señalización, etc. En la segunda parte del proyecto se presta atención a la seguridad de la red, analizando los mecanismos propios que presenta el estándar DVB así como los diferentes protocolos de seguridad existentes en las capas superiores para una protección adicional. Para concluir el proyecto se han creado dos aplicaciones, la primera como método didáctico para comprender mejor el comportamiento de las redes VSAT con el estándar DVB-S, y una segunda aplicación con carácter comercial para la transferencia de ficheros de manera segura con características específicas, enfocada particularmente en redes VSAT, aunque siendo posible su uso en otras redes. ABSTRACT. Nowadays VSAT networks (Very Small Aperture Terminal) are becoming more important in satellite communications, due to several new applications that are being developed both at company level and end user level. This project aims to make a study of this type of network to present it as a solution to the problem of wanting to connect scattered stations, because the terrain profile makes difficult to connect them via conventional terrestrial networks. New standards are making that such networks proliferate very quickly for the reason that a more flexibility than the previous standards for this type of network is achieved. Specifically, this project has studied the open standard DVB-S developed by the DVB workgroup as one of the most internationally accepted. To understand this communication system, this project is structured in two different parts: On one hand, in the first part a review about how VSAT satellite communications have evolved, indicating the advantages and disadvantages of its implementation and above all, the guidance that they show to the use of the DVB standards. Subsequently, a study of the DVB-S and DVB-RCS standards is developed, where delves into key concepts such as MPEG-2 Multiplexed Transport, mechanisms of transmission of signaling messages, etc. On the other hand, in the second part of the project, we focus on network security, analyzing the mechanisms presented by the DVB standard and various existing security protocols in the upper layers for an extra protection. To complete the project two different applications have been developed: the first one as a teaching method to better understand the behavior of VSAT networks in DVB-S standard, and the second one with a commercial basis for transferring files securely with specific features applications focused particularly in VSAT networks, although with a possible use on other networks.
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During the last years many researchers have been working on the active matching or on non-Foster matching networks for one- and two-port electrically small antennas (ESAs). A new parameter on the sensitivity of the two-port electrically small antenna when loaded with a non-F oster network is presented. This sensitivity analysis will allow us to choose what kind of antennas can be properly matched with non-Foster networks and their position in order to optimi ze the performance of the design. Then, a typical high Q two-port antenna will be harder to match over a broad bandwidth, since |S21| is very small and only agrees with |S11| over very small frequency bands, yielding very large sensitivity values. However, for these two-port antennas, if high levels of coupling can be engineered for a high Q multiple-port antenna, the return and insertion losses can be similar over larger bandwidths and, hence, the sensitivity can be kept low over larger bandwidths, enabling broader impedance matched bandwidths to be achieved, even for highly resonant antennas.
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Esta dissertação tem por propósito analisar os impactos da geração distribuída sobre as correntes de curto-circuito e sobre a proteção das redes de média tensão das concessionárias de distribuição de energia elétrica usando uma abordagem paramétrica. A principal motivação deste trabalho são os recentes incentivos regulatórios que estão fomentando a geração distribuída no Brasil. Contudo, as redes de distribuição convencionais foram projetadas para serem passivas e a introdução da geração poderá causar problemas de ordem técnica que ainda precisam ser resolvidos. Tais problemas foram pesquisados e aqueles relacionados com os impactos sobre as correntes de curto-circuito foram enfatizados. As normas técnicas das concessionárias também foram investigadas porque seus requisitos, como a ligação dos transformadores de acoplamento, influem nas correntes de curto-circuito. Para se calcular as correntes de curto-circuito, desenvolveu-se uma planilha eletrônica cujos resultados foram validados com programas comerciais de análise de redes elétricas. Esta ferramenta foi utilizada para demonstrar, através de exemplos, o impacto causado pela geração distribuída sobre as correntes de curto-circuito e, posteriormente, para realizar as análises paramétricas nas quais a influência de cada variável foi avaliada. A aplicação do método paramétrico permitiu o estudo de possíveis limites para a potência de um gerador distribuído em função dos impactos admissíveis, de seu ponto de conexão, de seus parâmetros elétricos e dos parâmetros elétricos da rede.
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The paper is devoted to the description of hybrid pattern recognition method developed by research groups from Russia, Armenia and Spain. The method is based upon logical correction over the set of conventional neural networks. Output matrices of neural networks are processed according to the potentiality principle which allows increasing of recognition reliability.
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In the paper learning algorithm for adjusting weight coefficients of the Cascade Neo-Fuzzy Neural Network (CNFNN) in sequential mode is introduced. Concerned architecture has the similar structure with the Cascade-Correlation Learning Architecture proposed by S.E. Fahlman and C. Lebiere, but differs from it in type of artificial neurons. CNFNN consists of neo-fuzzy neurons, which can be adjusted using high-speed linear learning procedures. Proposed CNFNN is characterized by high learning rate, low size of learning sample and its operations can be described by fuzzy linguistic “if-then” rules providing “transparency” of received results, as compared with conventional neural networks. Using of online learning algorithm allows to process input data sequentially in real time mode.
