Global ETD Search

391	Image-based Extraction Of Material Reflectance Properties Of A 3d Object Erdem, Mehmet Erkut 01 January 2003 (has links) (PDF) In this study, an appearance reconstruction method based on extraction of material re&amp / #64258 / ectance properties of a three-dimensional (3D) object from its twodimensional (2D) images is explained. One of the main advantages of this system is that the reconstructed object can be rendered in real-time with photorealistic quality in varying illumination conditions. Bidirectional Re&amp / #64258 / ectance Distribution Functions (BRDFs) are used in representing the re&amp / #64258 / ectance of the object. The re&amp / #64258 / ectance of the object is decomposed into di&amp / #64256 / use and specular components and each component is estimated seperately. While estimating the di&amp / #64256 / use components, illumination-invariant images of the object are computed from the input images, and a global texture of the object is extracted from these images by using surface particles. The specular re&amp / #64258 / ectance data are collected from the residual images obtained by taking di&amp / #64256 / erence between the input images and corresponding illumination-invariant images, and a Lafortune BRDF model is &amp / #64257 / tted to these data. At the rendering phase, the di&amp / #64256 / use and specular components are blended into each other to achieve a photorealistic appearance of the reconstructed object. photorealism, bi-directional re&amp #64258
392	Image Classification For Content Based Indexing Taner, Serdar 01 December 2003 (has links) (PDF) As the size of image databases increases in time, the need for content based image indexing and retrieval become important. Image classification is a key to content based image indexing. In this thesis supervised learning with feed forward back propagation artificial neural networks is used for image classification. Low level features derived from the images are used to classify the images to interpret the high level features that yield semantics. Features are derived using detail histogram correlations obtained by Wavelet Transform, directional edge information obtained by Fourier Transform and color histogram correlations. An image database consisting of 357 color images of various sizes is used for training and testing the structure. The database is indexed into seven classes that represent scenery contents which are not mutually exclusive. The ground truth data is formed in a supervised fashion to be used in training the neural network and testing the performance. The performance of the structure is tested using leave one out method and comparing the simulation outputs with the ground truth data. Success, mean square error and the class recall rates are used as the performance measures. The performances of the derived features are compared with the color and texture descriptors of MPEG-7 using the structure designed. The results show that the performance of the method is comparable and better. This method of classification for content based image indexing is a reliable and valid method for content based image indexing and retrieval, especially in scenery image indexing.
393	Measurement and validation of bone-conduction adjustment functions in virtual 3D audio displays Stanley, Raymond M. 06 July 2009 (has links) Virtual three-dimensional auditory displays (V3DADs) use digital signal processing to deliver sounds (typically through headphones) that seem to originate from specific external spatial locations. This set of studies investigates the delivery of V3DADs through bone-conduction transducers (BCTs) in addition to conventional headphones. Although previous research has shown that spatial separation can be induced through BCTs, some additional signal adjustments are required for optimization of V3DADs, due to the difference in hearing pathways. The present studies tested a bone-conduction adjustment function (BAF) derived from equal-loudness judgments on pure tones whose frequencies were spaced one critical band apart. Localization performance was assessed through conventional air-conduction headphones, BCTs with only transducer correction, and BCTs with a BAF. The results showed that in the elevation plane, the BAF was effective in restoring the spectral cues altered by the bone-conduction pathway. No evidence for increased percept variability or decreased lateralization in the bone-conduction conditions was found. These findings indicate that a V3DAD can be implemented on a BCT and that a BAF will improve performance, but that there is an apparent performance cost that cannot be addressed with BAFs measured using the methodology in the present studies. Bone-conduction transducer Head-related transfer function (HRTF) Spatial audio Bone conduction Surround-sound systems Directional hearing Bone conduction Transducers
394	Self-Normalized Sums and Directional Conclusions Jonsson, Fredrik January 2012 (has links) This thesis consists of a summary and five papers, dealing with self-normalized sums of independent, identically distributed random variables, and three-decision procedures for directional conclusions. In Paper I, we investigate a general set-up for Student's t-statistic. Finiteness of absolute moments is related to the corresponding degree of freedom, and relevant properties of the underlying distribution, assuming independent, identically distributed random variables. In Paper II, we investigate a certain kind of self-normalized sums. We show that the corresponding quadratic moments are greater than or equal to one, with equality if and only if the underlying distribution is symmetrically distributed around the origin. In Paper III, we study linear combinations of independent Rademacher random variables. A family of universal bounds on the corresponding tail probabilities is derived through the technique known as exponential tilting. Connections to self-normalized sums of symmetrically distributed random variables are given. In Paper IV, we consider a general formulation of three-decision procedures for directional conclusions. We introduce three kinds of optimality characterizations, and formulate corresponding sufficiency conditions. These conditions are applied to exponential families of distributions. In Paper V, we investigate the Benjamini-Hochberg procedure as a means of confirming a selection of statistical decisions on the basis of a corresponding set of generalized p-values. Assuming independence, we show that control is imposed on the expected average loss among confirmed decisions. Connections to directional conclusions are given. Self-normalized sums heavy-tailedness Student's t-statistic distributional symmetry exponential tilting directional conclusions reversal rates multiple statistical inference the Benjamini-Hochberg procedure
395	Topology optimization of periodic structures Zuo, Zihao, Zhihao.zuo@rmit.edu.au January 2009 (has links) This thesis investigates topology optimization techniques for periodic continuum structures at the macroscopic level. Periodic structures are increasingly used in the design of structural systems and sub-systems of buildings, vehicles, aircrafts, etc. The duplication of identical or similar modules significantly reduces the manufacturing cost and greatly simplifies the assembly process. Optimization of periodic structures in the micro level has been extensively researched in the context of material design, while research on topology optimization for macrostructures is very limited and has great potential both economically and intellectually. In the present thesis, numerical algorithms based on the bi-directional evolutionary structural optimization method (BESO) are developed for topology optimization for various objectives and constraints. Soft-kill (replacing void elements with soft elements) formulations of topology optimization problems for solid-void solutions are developed through appropriate material interpolation schemes. Incorporating the optimality criteria and algorithms for mesh-independence and solution-convergence, the present BESO becomes a reliable gradient based technique for topology optimization. Additionally, a new combination of genetic algorithms (GAs) with BESO is developed in order to stochastically search for the global optima. These enhanced BESO algorithms are applied to various optimization problems with the periodicity requirement as an extra constraint aiming at producing periodicity in the layout. For structures under static loading, the present thesis addresses minimization of the mean compliance and explores the applications of conventional stiffness optimization for periodic structures. Furthermore, this thesis develops a volume minimization formulation where the maximum deflection is constrained. For the design of structures subject to dynamic loading, this thesis develops two different approaches (hard-kill and soft-kill) to resolving the problem of localized or artificial modes. In the hard-kill (completely removing void elements) approach, extra control measures are taken in order to eliminate the localized modes in an explicit manner. In the soft-kill approach, a modified power low material model is presented to prevent the occurrence of artificial and localized modes. Periodic stress and strain fields cannot be assumed in structures under arbitrary loadings and boundaries at the macroscopic level. Therefore being different from material design, no natural base cell can be directly extracted from macrostructures. In this thesis, the concept of an imaginary representative unit cell (RUC) is presented. For situations when the structure cannot be discretized into equally-sized elements, the concept of sensitivity density is developed in order for mesh-independent robust solutions to be produced. The RUC and sensitivity density based approach is incorporated into various topology optimization problems to obtain absolute or scaled periodicities in structure layouts. The influence of this extra constraint on the final optima is investigated based on a large number of numerical experiments. The findings shown in this thesis have established appropriate techniques for designing and optimizing periodic structures. The work has provided a solid foundation for creating a practical design tool in the form of a user-friendly computer program suitable for the conceptual design of a wide range of structures. Topology optimization periodic structures periodic design stiffness optimization frequency optimization eigenvalue genetic algorithms finite element analysis
396	Aspects micromécaniques de la rupture dans les milieux granulaires / Micromechanic Aspects of failure in geomaterials Hadda, Nejib 18 April 2013 (has links) Les régions de montagne sont parfois le siège de phénomènes dévastateurs brutaux, tels que les éboulements, les glissements de terrains, ou encore les avalanches. Fondamentalement, ces phénomènes sont issus de la rupture d’un volume de matériau qui va alors s’écouler sous l’effet de son poids propre. Prévoir ces phénomènes impose donc de mieux décrire la phase initiale de rupture. Ce travail de thèse s’inscrit dans cette volonté, en considérant le cas très général de la rupture dans un milieu granulaire. Pour cela, des simulations numériques utilisant une méthode aux éléments discrets ont été mises en œuvre, afin de vérifier la pertinence des critères usuels de rupture et d’instabilité. Dans un second temps, des analyses plus fines basées sur le travail du second ordre calculé à partir des variables microscopiques ont été menées afin de cerner comment évolue la microstructure de l’assemblage granulaire juste avant et pendant la rupture. Finalement, l’influence du chemin de chargement et des paramètres de contrôle sur la nature (effective ou non effective) et le mode (diffus ou localisé) de rupture a été examinée à travers une série d’essais biaxiaux sur deux échantillons numériques bidimensionnels (dense et moyennement dense). / Landslides and avalanches are the most common brutal and devastating natural hazards in mountain regions. Basically, these phenomena are derived from the failure of a material volume which will then flow under the effect of its own weight. Therefore, predicting these phenomena requires a better description of the initial phase of failure. This work comes within this willingness, considering the very general case of failure in granular media. For this purpose, numerical simulations using a discrete element method were carried out in order to investigate the relevance of the common failure and instability criteria. In a second step, more detailed analyses based on the second order work computed from the microscopic variables were conducted in order to describe the evolution of the microstructure of a granular assembly just before and during the failure. Finally, the influence of the loading path and the control parameters on the nature (effective or non-effective) and the mode (diffuse or localized) of failure was discussed through a series of biaxial tests performed on two-dimensional numerical samples depicting respectively a dense and a medium dense dry sand. Milieux granulaires Rupture diffuse Bifurcation Travail du second ordre Éléments discrets Recherche directionnelle Granular matter Diffuse failure Bifurcation Second order work Discrete elements Directional analysis
397	Existência de soluções para uma classe de problemas elípticos com não linearidade descontínua. / Existence of solutions for a class of elliptic problems with discontinuous nonlinearity. ALMEIDA, Arthur Gilzeph Farias. 08 August 2018 (has links) Submitted by Johnny Rodrigues (johnnyrodrigues@ufcg.edu.br) on 2018-08-08T20:21:22Z No. of bitstreams: 1 ARTHUR GILZEPH FARIAS ALMEIDA - DISSERTAÇÃO PPGMAT 2013..pdf: 508810 bytes, checksum: 02ca89b269a1cb82e4ba0a5d102acff9 (MD5) / Made available in DSpace on 2018-08-08T20:21:22Z (GMT). No. of bitstreams: 1 ARTHUR GILZEPH FARIAS ALMEIDA - DISSERTAÇÃO PPGMAT 2013..pdf: 508810 bytes, checksum: 02ca89b269a1cb82e4ba0a5d102acff9 (MD5) Previous issue date: 2013-10 / CNPq / Neste trabalho estudamos a existência de, pelo menos, três soluções distintas para dois problemas de inclusão diferencial. Para isto, faremos uso da teoria da análise convexa para funcionais localmente Lipschitz, bem como métodos variacionais. / In this work we study the existence of, at least, three distinct solutions to two problems of diﬀerential inclusion. For this, we use the theory of convex functional analysis Lipschitz locally, and variational methods. Matemática. Problemas elípticos não lineares Derivada direcional generalizada Gradiente generalizado Funcionais localmente Lipschitz Métodos variacionais Inclusão diferenciais Generalized directional derivative Generalized gradient Locally Lipschitz functional Variational methods
398	Schémas numériques d'ordre élevé pour la simulation des écoulements turbulents sur maillage structuré et non structuré / High Order numerical schemes for turbulent flows simulation on structured and unstructured grids Cayot, Pierre 26 April 2016 (has links) Nous nous intéressons dans cette thèse au développement et à la mise en oeuvre de schémas numériques Volumes Finis d’ordre élevé pour des maillages non-structurés. Il s’agit de mettre en place les ingrédients numériques pour réaliser des simulations aux grandes échelles avec le code numérique elsA. Les schémas numériques proposés sont basés sur une approche directionnelle, afin de limiter le coût CPU et de réduire la molécule de points. La partie convective du schéma numérique doit être d’ordre élevé. L’ordre élevé est obtenu en utilisant différents gradients sur un stencil prédéféni utilisant 4 cellules. Deux gradients sont utilisés pour la partie convective : le gradient GreenGauss et le gradient “UIG”. Pour la partie diffusive, le gradient “UIG” est utilisé. Ce gradient a été développé durant la thèse et permet d’avoir un gradient moyen d’ordre 2 sur chaque interface. Ce gradient a été étudié et validé sur différents cas-tests. Les schémas numériques d’ordre élevé ont été analysés théoriquement avec des analyses d’ordre et de stabilité. Il a été montré que ces schémas peuvent atteindre l’ordre 5 sur des hexaèdres et l’ordre 3 sur des triangles équilatéraux. Suite à cette analyse, les différents schémas ont été d’abord testés en 1D sur un cas classique d’advection, puis ont été validés sur le cas de convection du vortex isentropique. / This study will present the development and results of high-order Finite Volume schemes for unstructured grids. The goal is to prepare numerical tools to perform Large Eddy Simulations with the indutrial solver elsA. These numerical schemes are based on a directional approach in order to limitate the CPU cost and reduce the stencil. The convective part of the scheme needs to be high order and this is obtained by the use of gradients on a four-cell stencil. Two gradients are used for the convective part, the Green-Gauss gradient and the “UIG” gradient. For the diffusive part, the “UIG” gradient is used. It was developped during this study and allows to recover a secondorder accurate scheme. This gradient was validated theorically and numerically on some test cases. High order numerical schemes were studied theorically with order and frequency analysis. It was shown that these schemes are fifth-order accurate on regular hexaedral elements and third-order accurate on equilateral triangles. Following this analysis, these schemes were tested in 1D on an advection test case and were then validated on the convection of an isentropic vortex. Volumes Finis Schéma convectif d’ordre élevé Simulation aux Grandes Echelles Non-Structuré Stencil Directionnel Gradient Finite Volume High Order convection scheme Large Eddy Simulation Unstructured Directional stencil Gradient
399	Thin films of polythiophenes oriented by epitaxy and high-temperature rubbing : correlations with optical, charge-transport and thermoelectrical properties / Films minces de polythiophènes orientés par épitaxie et brossage à haute temperature : corrélation avec les propriétés optiques, de transport de charge et thermoélectriques Hamidi Sakr, Amer 13 October 2017 (has links) Le but de cette thèse est d'étudier l'effet de l’alignement et le contrôle de la morphologie de films minces de polythiophènes et de les corréler avec les propriétés optiques, de transport de charges et thermoélectriques. Puisque les polymères semiconducteurs sont intrinsèquement anisotropes, il est essentiel de les aligner afin de comprendre leur propriétés. Cette étude a été réalisée en employant deux techniques qui ont permises d’obtenir des films minces orientés. Le brossage à haute température et la cristallisation épitaxiale directionnelle (CED) ont conduit à des films de polythiophène hautement orientés avec des paramètres d'ordre allant jusqu'à 0.87 et des taux de crystallinité jusqu'à 65%. La technique de brossage nous a permis de contrôler avec précision les tailles des domaines cristallins dans des films de P3HT brossés. Par cette méthode, nous avons pu également déterminer les températures de fusion à l'équilibre de différents poly(3-alkyl-thiophène). Nous avons appris que la largeur de bande du couplage excitonique W dépend des dimensions des cristaux dans les films minces brossés. Cette étude à aussi montrer l’importance de la planarité des chaînes pontant les domaines cristallins à travers les zones amorphes sur les propriétés de transport de charges. Nous avons également mis en évidence la morphologie particulière du poly (3-butylthiophène) (P3BT) et le rôle des groupements butyles. La méthode de cristallisation epitaxialle a été utilisée pour orienter des films de poly(3-dioctylphenyl-thiophène) (PDOPT). Nous avons examiné l'effet de la masse moléculaire du PDOPT sur le degré de cristallinité et l'alignement. Ceci nous a permis de proposer un modèle structural montrant l’absence de pi-stacking dans ce polythiophène. Finalement, nous proposons une méthode en deux étapes d’élaboration de films minces conducteurs alignés. Le brossage des films puis le dopage des polymères semiconducteurs de type-P a permis d’obtenir des propriétés thermoélectriques anisotropes améliorées.Cette thèse démontre l'importance du contrôle de la morphologie et de l'alignement des polymères semiconducteurs et conducteurs pour comprendre leurs propriétés fortement anisotropes. / The aim of this thesis is to study the effect of alignment and morphological control on polythiophene thin films and to correlate this control with the optical, charge transport and thermoelectric properties. Since semiconducting polymers are inherently anisotropic by nature, studying these polymers in the aligned state was essential to understand their properties. This study could be achieved by employing two techniques that are successful in orienting polymers in thin films. High-temperature rubbing (HTR) along with directional epitaxial crystallization (DEC) produced highly oriented polythiophene thin films with order parameters reaching 0.87 and crystallinities up to 65%. HTR was a successful method to control crystal sizes in rubbed poly(3-hexyl-thiophene) P3HT films. By this method, the equilibrium melting temperatures of other poly(3-alkyl-thiophene) P3ATs were calculated. We learned that the free excitonic bandwidth depends on the crystal dimensions in the rubbed thin films. We also learned that the planarity of tie-chains linking consecutive crystalline domains plays a very important role in field-effect mobility. We also discuss the peculiar morphology of poly(3-butyl-thiophene) (P3BT) and the role of the butyl side groups. Then DEC method was proposed to orient poly(3-dioctylphenyl-thiophene) (PDOPT) thin films. We examined the effect of molecular weight of PDOPT on the level of crystallinity and alignment. Consequently, this relation provided fundamental information that helped us refine the crystal structure of PDOPT. Finally, a versatile method to produce highly aligned conducting polymers was proposed. HTR followed by P-type doping proved to be an excellent way to produce highly aligned conducting thin films with enhanced thermoelectric properties. This thesis brings value to the importance of morphology control and the alignment of semiconducting thin films to understand the various properties of these highly anisotropic systems. P3HT P3AT Brossage à chaud Croissance épitaxiale Polythiophenes P3HT P3AT High-temperature rubbing Directional epitaxial growth Transmission electron microscopy Organic field effect transistors, Thermoelectric properties P-type doping 541.3
400	Effet thermoélectrique dans les métaux liquides sous champ magnétique. / Thermoelectric current and magnetic field interaction Influence on the structure of binary metallic alloys Kaldre, Imants 12 July 2013 (has links) Lorsqu'un champ magnétique est appliqué au cours de la solidification directionnelle, une convection dans la phase liquide peut être induite par l'effet thermoélectrique. En effet la présence d'un gradient de température le long du front de solidification peut provoquer la circulation du courant thermoélectrique, qui interagit avec le champ magnétique appliqué pour créer un écoulement (convection thermo électromagnétique-TEMC). Les conditions de transport de soluté et de l'énergie sont affectées par cette convection, donc il y a influence sur l'espacement des dendrites et la macro-ségrégation des composants de l'alliage. Dans ce travail, l'influence du champ magnétique sur la solidification directionnelle d'alliages métalliques est étudiée. Des travaux expérimentaux de la solidification directionnelle de Sn-Pb et Sn-Bi alliages sont réalisés. La solidification directionnelle dans la configuration Bridgman est effectuée avec ou sans champ magnétique appliqué. L'influence, sur la solidification, du champ magnétique et d'un courant électrique (AC et DC) appliqués est étudiée. Les mouvements du liquide provoquent de fortes macro-ségrégations ainsi qu'un modification des espacements interdendritiques. Les résultats expérimentaux sont interprétés à la lumière d'une modélisation heuristique. Le cas d'un champ magnétique tournant a été aussi étudié. Ainsi, la valeur de la rotation du champ est choisie pour ralentir assez brassage électromagnétique sans pour autant supprimer les effets de TEMC. À faible vitesse de tirage et faible vitesse de rotation faible champ une macro-ségrégation en forme de spirale a pu être obtenue. / If magnetic field is applied during directional solidification, liquid phase convection can be induced by means of thermoelectromagnetic effect. Temperature gradient at the solidification front can cause thermoelectric current circulation, which then interacts with field and creates convection (Thermoelectromagnetic convection-TEMC). Solute and energy transport conditions are affected by this convection, thus it influences dendrite spacing and macrosegregation of the alloys. In this work magnetic field influence on the directional solidification of metallic alloys is studied. Experimental work of directional solidification of Sn-Pb and Sn-Bi alloys is done. Alloys are directionally solidified in Bridgman setup without or with applied magnetic field. Influence on the structure by magnetic field and applied electric current (AC and DC) is studied in this work. Analytical and experimental results are compared and interpreted. Bridgman solidification under rotating transverse magnetic field is studied as well, field rotation value is chosen to be slow enough that electromagnetic stirring does not fully suppress effects of TEMC. At low pulling velocity and low field rotation velocity spiral shaped component macrosegregation can be achieved. Convection thermoélectromagnétique Solidification directionnelle Sn-Pb alliage Champ magnétique tournant Puissance thermoélectrique absolue Thermoelectromagnetic convection Directional solidification Sn-Pb alloys Slowly rotating magnetic field Absolute thermoelectric power

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