Global ETD Search

21	Návrh a realizace zařízení pro měření rozptylu světla na površích solárních článků / Design and realization of the device for measurement of light scattering from surfaces of solar cells Gründling, Vladimír January 2008 (has links) The principle of an original instrument for experimental measurement of electromagnetic wave scattering from rough planar surfaces is presented in the diploma theses. A design and realization of the instrument is presented too. The instrument is primarily intended for measurement of angle intensity distribution of light scattered from solar cells surfaces. Owing to a possibility to analyse surfaces with a high level anisotropy of electromagnetic wave scattering it is possible to use the instrument for a study of surfaces with an arbitrary type of the surface roughness.
22	The effects of electromagnetic wave stimulation (EMS) on osteoblast differentiation and activity Pauly, Katherine L. 06 1900 (has links) Indiana University School of Dentistry / Introduction: The goal of nonsurgical root canal therapy is to reduce the bacterial load within an infected root canal system, and the subsequent objective is to prevent or treat apical periodontitis. Clinical studies have shown more expedient healing of apical periodontitis treated with electromagnetic wave stimulation (EMS) as compared to apical periodontitis not treated with EMS. Stimulation of osteoblasts and growth factors has been shown when EMS was applied to rat calvaria, resulting in increased bone healing. Objective: The purpose of this vitro study was to evaluate the effects of EMS on the proliferation and differentiation of osteoblasts. Using primary neonatal calvaria osteoblast-lineage cells, the effects of different EMS regimens on proliferation, alkaline phosphatase (ALP) activity, and mineral deposition were determined. Materials and Methods: EMS regimen included currents of 0mA, 0.1mA, 1mA, and 10mA delivered for five consecutive 1s pulses per day for one, two, and three days. Cell proliferation was assayed after 1 or 2 days using an MTS assay. Alkaline phosphatase activity and mineral deposition were assayed after culturing the cells in osteogenic media containing ascorbic acid and -glycerol phosphate for 7 days. Comparisons were performed using analysis of variance, with a 5% significance level. Results: There was no statistically significant differences noted in MTS proliferation and mineral deposition between the experiment EMS treatment groups of 0.1, 1.0, and 10.0 mA compared to the control group of 0 mA current on calvaria-derived osteoblast. While there were no statistically significant differences noted in ALP activity in the 0.1, and 1.0 mA EMS groups, compared to 0 mA control, alkaline phosphatase activity was significantly increased in the 10 mA EMS group. Conclusion: There was no significant differences in MTS proliferation and mineral deposition of the EMS group compared to the control group. However, 10 mA EMS favored increased ALP activity suggesting EMS can promote matrix maturation by osteoblasts. Additional in vitro experimental studies, including different stem cell populations, culture duration and EMS treatment regimens are needed to understand the mechanism of action of EMS for future applications in regenerative endodontics. electromagnetic wave stimulation electromagnetic osteoblast osteoblast differentiation osteoblast activity Alkaline Phosphatase Cell Differentiation Cell Proliferation Electromagnetic Radiation Osteoblasts Regenerative Endodontics
23	Electromagnetic Field Interaction Between Overhead High Voltage Power Transmission Line and Buried Utility Pipeline Ramli, Khairun N., Abd-Alhameed, Raed, Hraga, Hmeda I., Liang, D.T.W., Excell, Peter S. 2011 March 1922 (has links) Yes / This work presents the development of a new approach of modelling the source excitation and the penetration of structures by continuous propagating electromagnetic (EM) plane waves. The technique incorporates the solution of time-dependent Maxwell's equations and the initial value problem as the structures are illuminated by the plane waves. The propagation of waves from source excitation is simulated by solving a finite-difference Maxwell's equation in the time domain. Subgridding method is used to condense the lattice at the point of interest locally for observing field distribution in high resolution. The computational burden due to huge number of time steps has been eased by employing quasi-static approach. An example of induced EM fields near an underground pipeline runs parallel to a 132 kV overhead power transmission line (OHTL) has been presented which paves the way in the development of new approach of EM fields interaction modelling. / MSCRC Power lines Subgridding Electromagnetic (EM) fields Electromagnetic wave penetration EM fields interaction modelling
24	Localisation automatique des aciers et caractérisation de la teneur en eau du béton armé par radar double-offset à grand rendement / Automatic localization of rebars and characterization of the water content of reinforced concrete using high performance double-offset GPR Agred, Kahina 10 October 2017 (has links) Les budgets destinés à l'entretien et à la réparation du patrimoine bâti étant très élevés, il est primordial de mettre en place des techniques fiables de suivi et de diagnostic des ouvrages pour réduire ces dépenses. Il existe de nombreuses techniques de contrôle non destructif (CND) employant différentes technologies à des coûts plus ou moins abordables. Elles permettent la détermination des propriétés du matériau renseignant sur l'état de l'ouvrage, et la détection d'inclusions ou de défauts dans le béton. Ces techniques sont connues pour leur rapidité de mise en œuvre et leur grand rendement sur site, mais aussi par leur caractère non intrusif qui permet de limiter le nombre de prélèvements. Cela les rend pertinentes pour la surveillance et l'inspection du patrimoine bâti, puisqu'elles peuvent fournir des informations liées à l'état d'un ouvrage sans l'endommager. Dans un ouvrage en béton armé, la couche d'enrobage des armatures est la plus sujette à de multiples agressions. C'est dans cette couche qu'ont lieu la majorité des réactions chimiques qui causent la dégradation de l'ouvrage, puisqu'avec la présence d'eau cet enrobage est considéré comme la zone de pénétration, de transfert et de fixation des agents agressifs présents dans l'environnement de l'ouvrage, favorisant par exemple la corrosion des armatures. La teneur en eau du béton est considérée comme un facteur très important dans le diagnostic des structures en béton armé, puisqu'elle conditionne le développement de la plupart des pathologies liées à la dégradation des structures affectant ainsi la durabilité du béton. La localisation avec précision des aciers de renforcement est également un élément primordial pour le diagnostic, mais également pour vérifier la conformité des dispositions constructives par rapport aux plans d'exécution. Dans ces travaux de recherche, nous utilisons la technologie radar pour la caractérisation géométrique et physique des éléments en béton armé, cela par le développement d'un algorithme automatique, rapide et sans prérequis. Les objectifs de cette étude sont : de localiser en surface et en profondeur les aciers du premier lit d'armatures, et de déterminer la vitesse de propagation des ondes électromagnétiques dans le béton d'enrobage pour estimer sa teneur en eau. / Since budgets for the maintenance and repair of built heritage structures are very high, it is essential to implement reliable techniques for monitoring and diagnosis of structures to reduce these costs. There are many non-destructive testing (NDT) methods employing different technologies which are more or less expensive. The NDT methods allow the determination of the properties of the material giving also information about the condition of the structure, and the detection of inclusions or defects in the concrete. These techniques are known for their fast implementation and their high performance in-situ, but also by their non-intrusive nature, which makes it possible to limit the number of samples for destructive assessment. This makes them relevant for the monitoring and inspection of built heritage, since they can provide information related to the condition of a structure without any damage. In a reinforced concrete structure, the concrete cover is the most prone to multiple aggressions. The majority of the chemical reactions which cause the degradation of the structure occur in this layer, since with the presence of water this coating is considered as the penetration, transfer and fixing zone of aggressive agents present in the environment of the structure, thus enhancing for example the corrosion of the reinforcements. The water content of concrete is considered as a very important factor in the diagnosis of reinforced concrete structures, since it conditions the development of most pathologies related to structural degradation, thus affecting the durability of concrete. The precise location of the reinforcement in the construction is also an essential element for the diagnosis, but also to check the conformity of the constructive dispositions with the execution plans. In this research, we use GPR technology for the geometrical and physical characterization of reinforced concrete elements, through the development of an automatic algorithm, fast and without pre-requisites. The objectives of this study are to locate the rebars of the first reinforcing layer in the plane and depth and to determine the propagation velocity of the electromagnetic waves in the coating layer to estimate the water content of concrete. CND Radar Béton Localisation des armatures Teneur en eau NDT GPR Concrete Reinforcement localization Water content
25	Estudo numÃrico/experimental de antena ressoadora dielÃtrica circularmente polarizada com alimentaÃÃo por sonda Ãnica / Numerical and experimental study of a circularly polarized dielectric resonator antenna fed by single probe JosÃ Wagner de Oliveira Bezerra 05 June 2012 (has links) nÃo hÃ / A expansÃo das redes de telecomunicaÃÃes sem fio e o fenÃmeno da convergÃncia digital trazem a inerente necessidade da pesquisa de novos componentes que assegurem a sustentabilidade e a evoluÃÃo dos sistemas. Novos tipos de antenas, menores e mais eficientes, sÃo exigidas Ã medida que novos dispositivos vÃo surgindo. Neste contexto, as antenas ressoadoras dielÃtricas, construÃdas com novos materiais, aparecem como excelente opÃÃo para substituir as antenas metÃlicas tradicionais. Este trabalho apresenta uma proposta de antena ressoadora dielÃtrica circularmente polarizada, operando na frequÃncia central de 2,25 GHz, na qual um esquema de alimentaÃÃo por sonda Ãnica Ã empregado para excitar dois modos ressonantes em um dielÃtrico em forma de quarto de cilindro. Este leiaute permite a ativaÃÃo de modos de baixa ordem, com distribuiÃÃo ortogonal dos campos eletromagnÃticos, ressoando em frequÃncias prÃximas com uma diferenÃa de fase de 90Â. SÃo introduzidos conceitos da teoria eletromagnÃtica envolvendo cavidades ressonantes e caracterÃsticas dos materiais cerÃmicos que compÃem o dielÃtrico. AlÃm disso, os processos de modelagem por computador e de construÃÃo de um protÃtipo sÃo explicados. Os resultados sÃo discutidos comparativamente entre o modelo computacional e as medidas experimentais executadas em laboratÃrio. O estudo demonstra uma boa concordÃncia entre os resultados simulados e os experimentais e evidencia a viabilidade da antena para aplicaÃÃes que necessitem de polarizaÃÃo circular na regiÃo do espectro de frequÃncias prÃximas a 2,25 GHz. / The expansion of wireless telecommunications networks and the phenomenon of digital convergence bring the inherent need for research of new components to ensure the sustainability and evolution of the systems. New types of antenna, smaller and more efficient, are required as new devices emerge. In this context, the dielectric resonator antennas, built with new materials, appear as an excellent option to replace the conventional metallic antennas. This work presents a proposal for a circularly polarized dielectric resonator antenna to operate at the center frequency of 2.25 GHz in which a single probe feeding scheme is used to excite two resonant modes in a quarter-cylinder-shaped dielectric. This layout allows the activation of low-order modes with orthogonal distribution of electromagnetic fields, resonating at near frequencies with a 90Â phase difference. The concepts of electromagnetic theory related to resonant cavities and the characteristics of dielectric ceramic materials are introduced. Furthermore, the processes of computer modeling and constructing of a prototype are explained. The results are discussed by comparison between the computational model and experimental measurements performed in the laboratory. The study shows a good agreement between the simulated and experimental results and demonstrates the feasibility of the antenna for applications requiring circular polarization for operating at the region of the frequency spectrum close to 2.25 GHz. TeleinformÃtica Eletromagnetismo Antenas SimulaÃÃo (computadores) antenna feeds dielectric antenna resonator electromagnetic wave polarization microwave antennas
26	Design And Characterization Of Electromagnetic Wave Absorbing Structural Compsites Gurer, Goksu 01 September 2010 (has links) (PDF) Electromagnetic interference (EMI) is one of the most common problems encountered in microwave applications. Interaction of electromagnetic (EM) waves from different sources may result in device malfunction due to misinterpretation of the transferred data or information loss. On the other hand, development of materials with reduced radar detectability is desired in defense applications. Considering the limitations in weight and thickness, development of lightweight structural materials with enhanced electromagnetic absorption potential is needed. In this study, development and characterization of glass fiber-reinforced polymer (GFRP) composite materials to be used in EM wave absorbing or EMI shielding applications was aimed. Incorporation of electromagnetic wave absorption characteristic has been achieved by the application of conductive thin film on fiber glass woven fabric reinforcement layers. Characterization of EM wave absorption potential was conducted using &ldquo / free-space method&rdquo / in 18 &ndash / 27 GHz frequency range. Single and multilayered combinations of surface-modified fiber glass woven fabrics were characterized in terms of their EM wave interaction properties and design principles for efficient broadband EM wave absorbing multilayered GFRP composite material have been presented. A computer aided computation method has also developed in order to predict EM wave transmission, reflection, and hence absorption characteristics of multilayered structures from single layer properties. Estimated results were verified compared to free-space measurement results. In the current study, up to 85% electromagnetic wave absorption has been obtained within 18-27 GHz frequency range (K band). Enhancement of EM wave absorption potential of multilayer structure has also been demonstrated by computer aided computation. TA Engineering Design 174
27	Non-Invasive Microwave Hyperthermia Habash, Riadh W Y 04 1900 (has links) Presented in this thesis are the following theoretical investigations carried out on the non-invasive microwave hyperthermia of malignant tumours in the human body: Fundamental concepts of electromagnetic wave propagation through a biomass and its interaction with it, are discussed. Various types of applicators used for producing hyperthermia in a biomass, are also discussed. Propagation of a uniform plane electromagnetic wave through a human body is investigated for the general case of oblique incidence. Various models used for the human body have been discussed and the planar multilayer model has been chosen for this study. Reflection and transmission coefficients for both the parallel and perpendicular linear polarisations of the wave, have been determined. For normal incidence, power transfer ratio at the muscle has been defined and calculated at 433, 915 and 2450 MHz (ISM frequencies). Efects of skin thickness and also of fat thickness, on the power transfer ratio at muscle, have been studied. Effects of the thickness and dielectric constant of a bolus, and also of the dielectric constant of an initial layer, on the power transfer ratio, have been studied and their optimum values obtained at the ISM frequencies. For microwave hyperthermia, 915 MHz is recommended as the frequency of operation. Steady-state solution of the bioheat transfer equation has been obtained, assuming the biomass to be a semi-infinite homogeneous medium. Effects of various physical parameters on the temperature profile in the biomass, have been studied. Also studied is the effect of the surface temperature on the magnitude, location and the width of the temperature peak attained in the biomass. A method to determine the microwave power and the surface temperature required to produce a prescribed temperature profile in the biomass, has been developed. The transient-state solution of the bioheat transfer equation has been obtained to study the building up of the temperature profile. Procedures for the design of an open-ended rectangular metal waveguide applicator and for estimating the total microwave power requirement to produce hyperthermia in the human body, have been developed. Performance of the applicators employing linear as well as planar arrays of open-ended rectangular metal waveguide antennas, has also been studied. In order to reduce the overall physical size of the applicators, filling up of the feed waveguide with a high dielectric constant but low loss material is suggested. A simple method of obtaining the elements of the array by partitioning a large aperture by using metal walls has been adopted. Calculation of the total microwave power required by various applicators for producing hyperthermia at various depths in a biomas, have been made and a comparison of the performance of various applicators, has been presented. Biophysics Electromagnetic Hyperthermia Microwave Power Deposition Hyperthermia Electromagnetic Wave Propagation Microwaves Bioheat Transfer Equation Planar Multilayer Model Biomass - Thermal Profiles Microwave Thermotherapy
28	Polohovací zařízení radaru / Track point of radar Černohous, Josef January 2010 (has links) Diploma thesis concerns in the first part about current knowledge in the field of electromagnetic waves, the history, development and distribution of radar, radar antenna types and distribution of structure radars. The second part deals with the problem formulation and analysis. The third part defines the specific goals of diplomas thesis and the fourth part proposes a solution methode. Design and design selection is included in fifth part. The sixth section analyze selected variant and describes its components. Final seventh part contains design assessment of structural, technological and economic aspect.
29	Wireless communication in vehicles Herbert, Steven John January 2015 (has links) There is an increasing interest in the deployment of wireless communication systems in vehicles. The motivation for this work is to provide a fundamental characterisation of the in-vehicle Electromagnetic (EM) wave propagation environment, and to demonstrate how this can be used to aid the deployment of wireless communication systems in vehicles. The fundamental characterisation of the in-vehicle EM wave propagation environment presented in this dissertation yields a number of useful outcomes. The instantaneous impulse response of the in-vehicle channel is characterised, which is presented in the form of a statistical model for arriving rays. Noticing that it is impractical to undertake a full statistical characterisation of the time-varying impulse response, the time variation of the in-vehicle channel is instead characterised as a Doppler spread. This approach provides parameters which are sufficient to perform an information theoretic analysis to lower bound the capacity of the in-vehicle channel. For typical operating conditions, it is found that the channel capacity is approximately equal to that of the same channel with perfect channel state information available at the receiver. Having established the fundamental EM wave propagation characteristics for a single in-vehicle wireless channel, the EM properties of the cavity itself are characterised. This is achieved through a thorough investigation into the analogy between vehicle cavities and reverberation chambers, specifically considering the quality factor (and hence time constant), EM isolation, and electric field uniformity of typical vehicle cavities. This approach yields the important insight that the root mean square delay spread is approximately the same for all wireless links in a typical vehicle cavity. Also, that the angular spread of energy received at any given location (away from the cavity boundaries) is approximately uniform, and that over short distances the coherence distance is well defined, and hence Multiple Input Multiple Output antenna arrays should work well in vehicles. To what extent a typical wireless system can exploit this characterisation depends on how well the parameters can be estimated by a typical wireless communication system. This is also addressed, specifically investigating the estimation of the cavity time constant, and channel time variation. It is found that both of these can be estimated well using a typical wireless sensor network system. 004
30	[en] THREE-DIMENSIONAL PARABOLIC EQUATION IMPEDANCE BOUNDARY CONDITION, NUMERICAL METHODS, ELECTROMAGNETIC WAVE PROPAGATION IRREGULAR TERRAIN / [pt] ANÁLISE DOS EFEITOS DO TERRENO IRREGULAR NA PROPAGAÇÃO DE ONDAS ELETROMAGNÉTICAS COM BASE NA EQUAÇÃO PARABÓLICA TRIDIMENSIONAL MARCO AURELIO NUNES DA SILVA 13 May 2019 (has links) [pt] Os efeitos das variações laterais de um terreno irregular na propagação de ondas eletromagnéticas são considerados pela representação dos campos vetoriais em termo de dois potenciais escalares Hertzianos em coordenadas esféricas. A combinação da equação parabólica para esses potenciais com uma condição de contorno de impedância para o solo, seguida por uma transformação de variáveis, define um problema de condição de contorno caracterizado por equações exibindo coeficientes que dependem da função altura do terreno e de suas derivadas parciais. A solução do problema através do esquema de Crank-Nicolson leva a um sistema esparso de equações lineares que é resolvido por um método direto. O modelo numérico resultante é aplicado a terrenos irregulares, representando configurações tridimensionais hipotéticas. / [en] The effects from lateral variations of irregular terrain on the propagation of radio waves are considered by the representation of the vector fields in terms of two scalar Hertz potentials in spherical coordinates. The combination of three-dimensional parabolic equations for these potentials with an impedance boundary condition for the ground, followed by a transformation of variables, will define a boundary-condition problem characterized by equations displaying coefficients that depend on the terrain height function and its partial derivatives. The problem solution through the Crank-Nicolson scheme will lead to a sparse system of linear equations, which will be solved by a direct method. The resulting numerical model will be applied to irregular terrain, representing hypothetical three-dimensional configurations. [pt] METODOS NUMERICOS [en] NUMERICAL METHODS [pt] EQUACAO PARABOLICA TRIDIMENSIONAL [pt] CONDICAO DE CONTORNO DE IMPEDANCIA [en] IMPEDANCE BOUNDARY CONDITION [en] ELECTROMAGNETIC WAVE PROPAGATION [pt] TERRENO IRREGULAR [en] IRREGULAR TERRAIN

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