Global ETD Search

361	Matematické transformace v dielektrické relaxační spektroskopii / Mathematical transformation in dielectric relaxation spectroscopy Brida, Marek January 2011 (has links) This labor treats the problem of dielectric relaxation spectroscopy in time domain, measurement of the absorption characteristics and their conversion to the frequency domain by creating a frequency depends of loss factor. Paper reports an overview of the most common mathematical transformation and approximation, which are used for this conversion and they also compare some of them. Mathematical methods used in this paper are Fourier transformation and Hamon approximation. Measured dielectric insulation is slot insulation type Isonom NKN 2039 and Isonom NMN 0967.
362	Analýza variability srdečního rytmu pomocí detrendované analýzy fluktuace / Detrended fluctuation analysis for heart rate variability analysis Šikner, Tomáš January 2013 (has links) Heart rate variability analysis can be used for a diagnosis of the cardiac diseases. The HRV analysis methods are divided into linear and nonlinear methods. Time-domain method is one of the simplest method and belongs to linear methods. Detrended fluctuation analysis DFA is nonlinear method made relatively recently. In this paper, it has been done the comparison of these two methods based on the changes detection in HRV caused by an ischemia.
363	Análise da eficiência de um método alternativo de integração das equações diferenciais ordinárias de linhas de transmissão / Fernandes, João Paulo January 2020 (has links) Orientador: Sérgio Kurokawa / Resumo: Uma linha de transmissão representada por uma cascata de circuitos π é descrita por meio de sistema de equações diferenciais ordinárias que podem ser resolvidas diretamente no domínio do tempo, através de métodos numéricos de integração. A cada passo de cálculo é resolvido o sistema de ordem 2n, sendo n a quantidade de circuitos π. Este é o procedimento clássico de resolução. Um método alternativo de resolução de equações diferencias, proposto recentemente, resolve os sistemas de equações diferenciais em linhas de até 5 km representada por uma quantidade limite de 333 circuitos π. Neste trabalho é investigado a aplicação desse método alternativo em linhas de maior comprimento e sua eficiência na resolução das equações diferenciais que representam a linha de transmissão. No método alternativo cada circuito π da linha é resolvido individualmente através de um sistema que não depende da quantidade de circuitos π, cuja matrizes possuem ordem 2x2. Dessa forma, para n circuitos π é necessário resolver n sistemas de duas equações diferencias para cada instante de tempo. Este procedimento é denominado como método acelerado. A análise do desempenho do método acelerado é realizada através do número de operações de pontos flutuantes (flops) e através do tempo de cálculo das variáveis de estado ao longo da linha de transmissão. O mesmo procedimento é realizado no método clássico e após comparados os resultados é possível constatar a eficiência do método acelerado para determinadas config... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: A transmission line represented by a cascade of π circuits is described by means of a system of ordinary differential equations that can be solved directly in the time domain, through numerical integration methods. At each calculation step, the 2n order system is solved, with n being the number of π circuits. This is the classic resolution procedure. An alternative method of solving differential equations recently proposed solves the systems of differential equations in lines of up to 5 km represented by a limit quantity of 333 π circuits. This work investigates the application of this alternative method on lines of greater length and its efficiency in solving the differential equations that represent the transmission line. In the alternative method, each π circuit of the line is solved individually through a system that does not depend on the number of π circuits, whose matrices have a 2x2 order. Thus, for n π circuits, it is necessary to solve n systems of two different equations for each instant of time. This procedure is called an accelerated method. The analysis of the performance of the accelerated method is performed through the number of floating-point operations (flops) and through the calculation time of the state variables along the transmission line. The same procedure is performed in the classic method and after comparing the results it is possible to verify the efficiency of the accelerated method for certain transmission line configurations. / Mestre Linhas de transmissão Parâmetros discretos Domínio do tempo Método acelerado Análise de desempenho Linhas elétricas. Discrete parameters Time domain Performance analysis Accelerated method
364	Time-Domain/Digital Frequency Synchronized Hysteresis Based Fully Integrated Voltage Regulator January 2019 (has links) abstract: Power management integrated circuit (PMIC) design is a key module in almost all electronics around us such as Phones, Tablets, Computers, Laptop, Electric vehicles, etc. The on-chip loads such as microprocessors cores, memories, Analog/RF, etc. requires multiple supply voltage domains. Providing these supply voltages from off-chip voltage regulators will increase the overall system cost and limits the performance due to the board and package parasitics. Therefore, an on-chip fully integrated voltage regulator (FIVR) is required. The dissertation presents a topology for a fully integrated power stage in a DC-DC buck converter achieving a high-power density and a time-domain hysteresis based highly integrated buck converter. A multi-phase time-domain comparator is proposed in this work for implementing the hysteresis control, thereby achieving a process scaling friendly highly digital design. A higher-order LC notch filter along with a flying capacitor which couples the input and output voltage ripple is implemented. The power stage operates at 500 MHz and can deliver a maximum power of 1.0 W and load current of 1.67 A, while occupying 1.21 mm2 active die area. Thus achieving a power density of 0.867 W/mm2 and current density of 1.377 A/mm2. The peak efficiency obtained is 71% at 780 mA of load current. The power stage with the additional off-chip LC is utilized to design a highly integrated current mode hysteretic buck converter operating at 180 MHz. It achieves 20 ns of settling and 2-5 ns of rise/fall time for reference tracking. The second part of the dissertation discusses an integrated low voltage switched-capacitor based power sensor, to measure the output power of a DC-DC boost converter. This approach results in a lower complexity, area, power consumption, and a lower component count for the overall PV MPPT system. Designed in a 180 nm CMOS process, the circuit can operate with a supply voltage of 1.8 V. It achieves a power sense accuracy of 7.6%, occupies a die area of 0.0519 mm2, and consumes 0.748 mW of power. / Dissertation/Thesis / Doctoral Dissertation Electrical Engineering 2019 Electrical engineering Energy Buck Converter DC- DC Digital Hysteresis Control Fully Integrated Voltage Regulator Power Density Time Domain
365	Avaliação das técnicas TDR (Reflectometria por Domínio do Tempo) e moderação de nêutrons, na determinação do teor de água em diferentes classificações do solo / Batista, Wagner Roberto, 1975- January 2004 (has links) Orientador: João Eduardo Guarnetti dos Santos / Banca: Marcos Roberto Bormio / Banca: Gastão Moraes da Silveira / Resumo: Este trabalho foi desenvolvido nas dependências das Fazendas Lageado e Edgárdia, pertencentes à Faculdade de Ciências Agronômicas - UNESP de Botucatu-SP, no município de Pratânia e no distrito de Vitoriana, município de Botucatu-SP, com o objetivo de avaliar 2 técnicas de obtenção do teor de água no solo. A primeira delas é conhecida como moderação de nêutrons, que consiste na emissão de nêutrons rápidos e contagem de nêutrons moderados retornados após colisão, com moléculas de hidrogênio encontradas no solo. A partir da contagem obtida, estabeleceu-se uma correlação entre essa contagem e o teor de água no solo obtido pelo método gravimétrico, tomado como padrão. Outra técnica é a do TDR (Time Domain Reflectometry) ou Reflectometria no Domínio de Tempo, onde se determina a constante dielétrica relativa do solo e, por correlação, obtém-se o teor de água correspondente. Esta técnica foi desenvolvida de 2 maneiras: na primeira, manteve-se a calibração geral conhecida como Equação de Topp, que consiste numa Equação polinomial cúbica, obtida de forma empírica. E, na segunda, desenvolveu-se uma calibração específica para cada solo analisado. Foram avaliados 7 tipos de solos às profundidades de 15 e 30cm respectivamente com 3 variações de textura: arenosa, média e argilosa. Também, determinou-se variáveis físicas, como densidade de partículas e análises químicas, dando ênfase no teor de matéria orgânica. O trabalho de campo consistiu no levantamento de dados (contagens) com a sonda de nêutrons "in situ" e na obtenção de amostras de solo, nas respectivas profundidades, para análise em laboratório pelas técnicas TDR e gravimétrica. Como referencial ou padrão, utilizou-se o método direto ou gravimétrico para a determinação do teor de água no solo...(Resumo completo, clicar acesso eletrônico abaixo) / Abstract: This work was developed at Fazenda Lageado and Edgárdia areas, belonging to the Agronomics Science School - UNESP Botucatu-SP, in Pratânia borough and in Vitoriana district, both in the Botucatu borough. The main objective was to study and evaluate two techniques to obtain the water content in the soil. The first technique evaluated is known as neutron moderation which consists in the emission of fast neutrons and in the counting of moderate neutrons which came back after a collision with hydrogen molecules found in the soil. From the coint obtained, it was settled the correlation between the count and the water content value in the soil, obtained througth the gravimetric method. Another technique is the TDR (Time Domain Reflectometry). In this, it can be determined the apparent relative constant dielectric in the soil and by the correlation, to reach the correspondent value of water content. This technique was developed in two ways: in the first one, it was kept the general calibration known as Topp's equation which consists in a cubic polynomial equation obtained in an empiric form. The second one, it was developed a specific calibration to each kind of soil analysed. It was evaluated seven kinds of soils to the depths of 15cm and 30cm, respectively. As an initial criterion to the choice of soils, we tried to obtain three texture variations: gritty sandy, mean and mudoy. It was also observed the physical variables such as: particles density and chemical analyses, giving a special emphasis on the drift of organic matter. Basically, the fieldwork consited in data surveys (count) with the neutron probe "in situ" and in the...(Complete abstract click electronic access below) / Mestre Física do solo. Solos - Umidade. Solos - Classificação. Time Domain Reflectometry. eng Neutron moderation. eng Content of water. eng Soil - Classification. eng
366	Study on Supervision of Wavelength Division Multiplexing Passive Optical Network systems Cen, Min January 2011 (has links) The wavelength-division-multiplexed passive optical network (WDM-PON) offers many advantages such as large bandwidth per user, easy management, high network security and low insertion loss enabling long-reach and/or high split-ratio. However, with the rapid development and growing interest for deployment of WDM-PON, the PON systems are becoming increasingly vulnerable to various failures. Therefore, network supervision becomes extremely important to guarantee an appropriate level of network reliability performance. The aim of PON supervision is to provide automated test and diagnostic capability without compromising the available bandwidth for services. An essential function is to detect any kind of deterioration in the network that can cause suspended services and to remotely localize these faults in order to avoid the high cost arising from troubleshooting. In this thesis, we evaluate several existing WDM PON supervision methods, based on which two simple and cost-effective new solutions are proposed to localize fiber failures in WDM PON systems. In the first solution, a conventional optical time domain reflectometry (OTDR) and a switch unit are employed, while in the second method, a novel architecture based on N×N arrayed waveguide grating (AWG) is proposed. Both methods are able to localize failures in feeder fiber and drop fibers without e.g. using expensive tunable OTDRs. A patent has been filed based on the second solution. The first proposed method is validated by simulations using VPI Transmission Maker. According to the results, this supervision method is able to give accurate measurement of many different types of failures that may happen in a fiber link. Furthermore, VPI is examined in terms of its future applicability in modeling complete PON supervision methods based on OTDR. Fiber access networks supervision optical time domain reflectometry (OTDR) Engineering and Technology Teknik och teknologier
367	Optical spectroscopy of cooperative phenomena and their symmetries in solids Mai, Thuc T. 19 June 2019 (has links) No description available. Physics Terahertz Time-Domain Spectroscopy Condensed Matter Multiferroics Antiferromagnet Phonon Raman Quantum Spin Liquid Symmetry Breaking Magnon Low energy
368	Locating faults in boundary wires for autonomous lawn mowers : An investigative study on methods used to locate faults in underground, low-voltage cables with focus on implementing Time Domain Reflectometer (TDR) Alhaj Kasem, Mustafa, Andersson, Daniel January 2021 (has links) Purpose:The purpose of this thesis was to identify a useful solution to find the location of a broken boundary wire. By useful we mean that the solution should be inexpensive, user friendly and accurate. However, this thesis will only investigate the accuracy of the method where the hypothesis is that an investigated method is applicable for all underground wires. Method:This study conducted a literature research in order to investigate what methods that are used in other industries to locate faults in underground, low-voltage electrical wires. After the research, the most commonly used fault locating methods were described and the one that seemed most useful was chosen as a possible solution.For the solution to be useful the accuracy was investigated. The method used to conduct an experiment and gather data to validate the solution was Design Science Research. Result:Three methods were investigated as possible solutions:Time Domain Reflectometry (TDR), Frequency Domain Reflectometry (FDR) and Murray bridge where experiments were conducted using TDR.TDR proved to be unapplicable in locating faults in boundary wires, although it was confirmed to be a valid solution to locate faults in coaxial cables with <1% error margin.What makes TDR and other reflectometry methods unsuitable methods within the autonomous lawn mower industry is the lack of characteristic impedance in the used boundary wires. The hypothesis that an investigated method is applicable for all underground wires is thereby refuted. Limitations:Experiments were conducted in laboratory environment with a signal generator and an oscilloscope. One experiment was conducted on a boundary wire in the ground which provided no reflected signal. Autonomous lawn mower electrical fault locating final thesis work impedance Time Domain Reflectometry. Computer and Information Sciences Data- och informationsvetenskap
369	A Method for Characterizing the Properties of Industrial Foams Salisbury, Shaun M. 10 August 2005 (has links) (PDF) Assessing the effect of foam layers on transport phenomena is of significant interest in many industries, so a method for predicting foam layer properties has been developed. A model of the propagation of radiation from an amplitude-modulated laser beam through a non-absorbing foam layer has been developed using diffusion theory. Measurements predicted by diffusion theory were compared to results generated using Monte Carlo methods for a variety of foam layer properties in both the time-domain and the frequency-domain. The properties that were varied include the layer thickness, the scattering coefficient, and the asymmetry parameter. Layer thicknesses between 8.5 mm and 18 cm were considered. Values of the scattering coefficient ranged from about 600 m-1 to 14000 m-1, while the asymmetry parameter varied between 0 and 1. A conjugate-gradient algorithm was used to minimize the difference between simulated Monte Carlo measurements and diffusion theory predicted measurements. A large set of simulated measurements, calculated at various source-detector separations and three discrete frequencies were used to predict the layer properties. Ten blind cases were considered and property predictions were made for each. The predicted properties were within approximately 10% of the actual values, and on average the errors were approximately 4%. Predictions of the reduced scattering coefficient were all within approximately 5% with the majority being within 3%. Predictions of L were all within approximately 10% with the majority being within 7%. Attempts to separate g from the reduced scattering coefficient were unsuccessful, and it was determined that implementation of different source models might make such attempts possible. It was shown that with a large number of measurements, properties could be accurately predicted. A method for reducing the number of measurements needed for accurate property estimation was developed. Starting with a single measurement location, property predictions were made. An approach for updating the optimal detector location, based on the current estimate of the properties, was developed and applied to three cases. Property predictions for the three cases were made to within 10% of the actual values. A maximum of three measurement locations were necessary to obtain such predictions, a significant reduction as compared to the previously illustrated method. spectroscopy frequency-domain time-domain diffusion theory inverse problems conjugate-gradient Monte Carlo foam layers Mechanical Engineering
370	Laser-Ultrasonic Measurement of Single-Crystal Elastic Constants from Polycrystalline Samples by Measuring and Modeling Surface Acoustic Wave Velocities Du, Xinpeng 07 September 2018 (has links) No description available. Materials Science Mechanical Engineering Acoustics Laser-ultrasonics Surface acoustic wave Time domain thermoreflectance Elastic constants Electron backscatter diffraction

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