993 resultados para Circuits de ràdio-DIsseny
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Ponent: Marta Luxan / Presenta: Ruth Vilà
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Ponent: Marta Luxan / Presenta: Ruth Vilà
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Ponent: Marta Luxan / Presenta: Ruth Vilà
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Ponent: Marta Luxan / Presenta: Ruth Vilà
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Combinational digital circuits can be evolved automatically using Genetic Algorithms (GA). Until recently this technique used linear chromosomes and and one dimensional crossover and mutation operators. In this paper, a new method for representing combinational digital circuits as 2 Dimensional (2D) chromosomes and suitable 2D crossover and mutation techniques has been proposed. By using this method, the convergence speed of GA can be increased significantly compared to the conventional methods. Moreover, the 2D representation and crossover operation provides the designer with better visualization of the evolved circuits. In addition to this, a technique to display automatically the evolved circuits has been developed with the help of MATLAB
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This paper presents a new approach to the design of combinational digital circuits with multiplexers using Evolutionary techniques. Genetic Algorithm (GA) is used as the optimization tool. Several circuits are synthesized with this method and compared with two design techniques such as standard implementation of logic functions using multiplexers and implementation using Shannon’s decomposition technique using GA. With the proposed method complexity of the circuit and the associated delay can be reduced significantly
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I have designed and implemented a system for the multilevel verification of synchronous MOS VLSI circuits. The system, called Silica Pithecus, accepts the schematic of an MOS circuit and a specification of the circuit's intended digital behavior. Silica Pithecus determines if the circuit meets its specification. If the circuit fails to meet its specification Silica Pithecus returns to the designer the reason for the failure. Unlike earlier verifiers which modelled primitives (e.g., transistors) as unidirectional digital devices, Silica Pithecus models primitives more realistically. Transistors are modelled as bidirectional devices of varying resistances, and nodes are modelled as capacitors. Silica Pithecus operates hierarchically, interactively, and incrementally. Major contributions of this research include a formal understanding of the relationship between different behavioral descriptions (e.g., signal, boolean, and arithmetic descriptions) of the same device, and a formalization of the relationship between the structure, behavior, and context of device. Given these formal structures my methods find sufficient conditions on the inputs of circuits which guarantee the correct operation of the circuit in the desired descriptive domain. These methods are algorithmic and complete. They also handle complex phenomena such as races and charge sharing. Informal notions such as races and hazards are shown to be derivable from the correctness conditions used by my methods.
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Control algorithms that exploit chaotic behavior can vastly improve the performance of many practical and useful systems. The program Perfect Moment is built around a collection of such techniques. It autonomously explores a dynamical system's behavior, using rules embodying theorems and definitions from nonlinear dynamics to zero in on interesting and useful parameter ranges and state-space regions. It then constructs a reference trajectory based on that information and causes the system to follow it. This program and its results are illustrated with several examples, among them the phase-locked loop, where sections of chaotic attractors are used to increase the capture range of the circuit.
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Object recognition in the visual cortex is based on a hierarchical architecture, in which specialized brain regions along the ventral pathway extract object features of increasing levels of complexity, accompanied by greater invariance in stimulus size, position, and orientation. Recent theoretical studies postulate a non-linear pooling function, such as the maximum (MAX) operation could be fundamental in achieving such invariance. In this paper, we are concerned with neurally plausible mechanisms that may be involved in realizing the MAX operation. Four canonical circuits are proposed, each based on neural mechanisms that have been previously discussed in the context of cortical processing. Through simulations and mathematical analysis, we examine the relative performance and robustness of these mechanisms. We derive experimentally verifiable predictions for each circuit and discuss their respective physiological considerations.
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Aquest projecte té com a objectius: determinar les Directrius a seguir per la futura redacció d’un protocol de gestió de les zones inundables del PNAE, amb la finalitat de potenciar la presència d’aus; determinar les millors condicions d’hàbitat per les poblacions d’aus del PNAE i redactar unes línies de seguiment que permetin d'una banda avaluar si les pautes proposades tindran l’efecte desitjat i d'altra banda que permetin la redacció del protocol de gestió
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La finalitat d' aquest projecte és poder realitzar el seguiment de la població de conill de bosc a la Finca de la Muntanya d’Alinyà, tenint en compte que des de feia tres anys s' estaven duent a terme alliberaments de conills en aquesta finca
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Aquest projecte tracta del disseny de diferents itineraris ambientals per a ús públic a Fornells de la selva, amb l'objectiu de recuperar i revaloritzar l'espai del meandre de l'Onyar per a ús públic i per a desenvolupar activitats d' educcació ambiental
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Three dimensional (3-D) integrated circuits can be fabricated by bonding previously processed device layers using metal-metal bonds that also serve as layer-to-layer interconnects. Bonded copper interconnects test structures were created by thermocompression bonding and the bond toughness was measured using the four-point test. The effects of bonding temperature, physical bonding and failure mechanisms were investigated. The surface effects on copper surface due to pre-bond clean (with glacial acetic acid) were also looked into. A maximum average bond toughness of approximately 35 J/m² was obtained bonding temperature 300 C.
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En aquest document es detalla l’experiència que s’ha portat a terme en l’Escola Politècnica Superior de la UdG. Concretament en l’assignatura de Fonaments Físics per l’enginyeria en l’àmbit de les titulacions de Disseny Industrial i d’Enginyeria Tècnica Industrial especialitat en Mecànica. L’objectiu general de l’activitat és aportar als alumnes els coneixements bàsics sobre camps elèctrics i teoria de circuits, des dels fonaments conceptuals, passant per l’aplicació dels conceptes en problemes fins a realitzar un esquema del procés, així com la utilització de les noves tecnologies tot aplicant com a tècnica d’aprenentatge basat en problemes: Project Based Learning (APB)
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L’àmbit del disseny industrial i disseny de producte abasta una gran quantitat de coneixement i especialitats, no existint fins al moment cap escrit respecte a tendencies en el disseny, que s’adapti als ensenyaments impartits a l’escola. Amb ànim de donar resposta a aquesta necessitat s’edita aquest volum, que ha de ser d’ús pels estudiants de les diverses enginyeries i de disseny. També pot ser d’ajut a aquells alumnes que en el seu Projecte Final de Carrera tractin temes relacionats amb el disseny i desenvolupament de productes
