Global ETD Search

21	Modeling of Ion Transport for Micro/Nano Size Particles in Coulter Counter Application Qin, Zhenpeng 09 June 2009 (has links) No description available. Mechanical Engineering Coulter Counter Resistive Pulse Sensor Ion transport Multi-physical simulation Electrical Double Layer Ionic current
22	Comparison of 3-D Friction Stir Welding Viscoplastic Finite Element Model with Weld Data and Physically-Simulated Data Posada, Maria 06 December 2012 (has links) (PDF) Models (both physical and numerical) of the friction stir (FS) welding process are used to develop a greater understanding of the influence of independent process parameters on dependent process output variables, such as torque, power, specific weld energy, peak temperature, cooling rates and various metallurgical factors (e.g., grain size and precipitates). An understanding of how the independent process parameters influence output variables and ultimately their effect on resultant properties (e.g., strength, hardness, etc..) is desirable. Most models developed have been validated primarily for aluminum alloys with relatively small amounts of experimental data. Fewer models have been validated for steels or stainless steels, particularly since steels and stainless steels have proven more challenging to friction stir than aluminum alloys. The Gleeble system is also a powerful tool with the capability to perform thermomechanical simulations in a known and controlled environment and provide physical representation of resultant microstructure and hardness values. The coupling of experimental data and physical simulated data can be extremely useful in assessing the capabilities of friction stir numerical process models. The overall approach is to evaluate Isaiah an existing three-dimensional finite element code developed at Cornell University by comparing against experimental and physically-simulated data to determine how well the code output relates to real FS data over a range of nine processing conditions. Physical simulations replicating select thermomechanical streamline histories were conducted to provide a physical representation of resultant metallurgy and hardness. Isaiah shows promise in predicting qualitative trends over a limited range of parameters and is not recommended for use as a predictive tool but rather a complimentary tool, Once properly calibrated, the Isaiah code can be a powerful tool to gain insight into the process, strength evolution during the process and coupled with a texture evolution model may also provide insight into microstructural and texture evolution over a range for which it is calibrated. friction stir welding friction stir processing 3-D viscoplastic finite element models hot uniaxial compression tests physical simulation Mechanical Engineering
23	Définition d'un modèle unifié pour la simulation physique adaptative avec changements topologiques / Definition of a unified model for the adaptative physical simulation with topological changes Fléchon, Elsa 09 December 2014 (has links) Les travaux réalisés pendant mon doctorat répondent à la problématique de la simulation physique, en temps interactif, du comportement d'objets déformables soumis à des changements topologiques. Mes travaux ont abouti à la définition d'un nouveau modèle unifié couplant un modèle topologique complet et un modèle physique, pour la simulation physique d'objets déformables décomposés en éléments surfaciques comme volumiques, tout en réalisant pendant cette simulation des changements topologiques comme la découpe ou la subdivision locale d'un élément du maillage. Cette dernière opération a permis de proposer une méthode adaptative où les éléments du maillage sont raffinés selon un critère géométrique au cours de la simulation. Nous avons fait le choix des cartes combinatoires et plus particulièrement celui des complexes cellulaires linéaires, comme modèle topologique de notre modèle unifié. Ils ont l'avantage d'être génériques par rapport à la dimension de l'objet représenté mais également par rapport à la topologie des cellules en lesquelles l'objet est décomposé. Le système masses-ressort a, quant à lui, été choisi comme modèle physique de notre modèle unifié. L'avantage de ce dernier réside dans la simplicité de ses équations, son implémentation intuitive, son interactivité et sa facilité à gérer les changements topologiques. Enfin, la définition d'un modèle unifié nous a permis de proposer un modèle évitant la redondance d'informations et facilitant la mise à jour de ces dernières suite à des changements topologiques / The work made during my PhD, respond to the problematic of physical simulation of the behavior of deformable objects subject to topological changes in interactive time. My work resulted in the definition of a new unified model coupling a complete topological model and a physical model for physical simulation of deformable objects decomposed in surface as volume elements, while performing during this simulation topological changes such as cutting or subdivision local of a mesh element. This operation allowed us to propose an adaptive method where mesh elements are refined during the simulation according to a geometric criterion. For the topological model of our unified model, we made the choice of combinatorial maps and more particularly linear cellular complexes. Their main advantage of the latter is the simplicity of its equations, its intuitive implementation, its interactivity and its ease to handle topological changes. Finally, the definition of a unified model allowed us to propose a model avoiding duplication of information and facilitate the update after topological changes Simulation physique Modèle topologique Carte combinatoire Complexes cellulaires linéaires Système masses-ressorts Découpe Physical simulation Topological model Combinatorial map Linear cellular complexes Mass-spring system Cutting 004
24	Étude théorique du transport électronique dans les nanodispositifs à boîtes quantiques semiconductrices / Theoretical study of electronic transport in semiconductor quantum dot-based nanodevices Talbo, Vincent 17 December 2012 (has links) La miniaturisation des composants, qui s’est engagée depuis l’avènement de l’électronique il y a plus de 50 ans, atteint aujourd’hui la dimension nanométrique, ouvrant la porte aux phénomènes quantiques. Ultime étape de cette miniaturisation, la boîte quantique, dans laquelle les électrons sont confinés dans les trois directions de l’espace, présente des propriétés remarquables, telles que l’augmentation du gap entre la bande de conduction et la bande de valence, ou la discrétisation des niveaux d’énergies. Autre conséquence du confinement, la forte interaction électron-électron régnant au sein de la boîte conduit à une énergie de charge importante, susceptible de bloquer l'entrée d'un électron dans la boîte sans apport d'énergie extérieur. Ce phénomène de blocage des charges est appelé blocage de Coulomb. Le transistor à un électron (SET), dispositif élémentaire tirant profit de ce phénomène, est pressenti pour quelques applications, comme la réalisation de fonctions logiques ou la détection de charge. Parmi les domaines concernés, la thermoélectricité, c’est-à-dire la possibilité de créer du courant électrique à partir d’une différence de température, s’intéresse de près aux dispositifs à un électron en raison de leurs niveaux d’énergie discrets qui conduisent à une très faible conductivité thermique. Ce travail présente le simulateur SENS (Single-Electron Nanodevice Simulation) développé dans l’équipe, et dont j’ai réalisé la partie destinée à la simulation du SET. Il s’appuie sur la résolution des équations couplées de Poisson et Schrödinger, nécessaire à la détermination des fonctions d’onde dans la boîte de silicium, elles-mêmes dépendantes des tensions appliquées aux électrodes. Les fréquences de transition tunnel sont ensuite calculées par la règle d’or de Fermi. L’étude approfondie du courant dans les SET permet d’extraire des diagrammes de stabilité en diamant, et démontre l’importance de paramètres tels que la taille de l’îlot, la dimension des barrières tunnel, la température et le nombre d’électrons occupant la boîte. L’étude du courant électronique et du courant de chaleur en présence d’une différence de température aux électrodes du SET est également faite pour juger de la pertinence de l’utilisation d’un SET en tant que générateur thermoélectrique, mais aussi comme étalon pour déterminer le coefficient Seebeck. Enfin, une étude du bruit de grenaille dans la double-jonction tunnel (SET sans la grille) est faite, démontrant le fort lien entre taux de transfert tunnel et bruit. En particulier, selon l’évolution des taux des transferts tunnel d’entrée et de sortie de l'îlot, pour un nombre d’électrons supérieur 2, il est possible d’observer une augmentation importante du bruit, qui devient alors super-Poissonien. L’étude de l’influence des paramètres géométriques démontre que le bruit de grenaille dépend essentiellement de la différence des épaisseurs de barrière tunnel. / After a continuous reduction which has begun 50 years ago, the feature size of electronic devices has now reached the nanometer scale, opening the door to quantum phenomena. The final stage of this miniaturization, the quantum dot, in which the electrons are confined in all three directions of space, has remarkable properties, such as an increase of the bandgap between the conduction band and the valence band, and the discretization of energy levels. Another consequence of confinement, the strong electron-electron interaction occurring in the dot induces a significant charging energy which may prevent an electron entering the dot if an external energy is not provided to the system. This charge blocking is called Coulomb blockade. The single electron transistor (SET), the elementary device taking advantage of Coulomb blockade, is slated for some applications, such as the realization of digital functions or charge sensors. Among the areas concerned, the thermoelectricity, i.e., the possibility of creating an electrical current from a temperature gradient, is very interested in single-electron devices due to their discrete energy levels which lead to a very low thermal conductivity.This thesis presents the simulator SENS (Single-Electron Nanodevice Simulation) developed in the team and the part I have developed specifically for the simulation of SET. It is based on a 3D solver of Poisson and Schrödinger coupled equations, necessary for the determination of the wave functions in the case of silicon, and dependent on voltages applied to the electrodes. Tunnel transfer rates are then calculated by Fermi's golden rule. In-depth study of the current in the SETs gives access to diamond stability diagrams, and demonstrates the importance of parameters such as dot size, tunnel the barriers thicknesses, the temperature and the number of electrons occupying the dot. The study of the electron current and the heat flow in the presence of a temperature difference at the electrodes of an SET is also made to consider the suitability of the use of an SET as thermoelectric generator, but also as a standard for determining the Seebeck coefficient.Finally, a study of shot noise in double-tunnel junction (SET without the gate) is made, demonstrating the strong link between tunnel transfer rate and shot noise. In particular, according to the evolution of in- and out – tunnel transfer rates, for a number of electrons in the dot greater than 2, it is possible to observe a significant increase in noise, which becomes super-Poissonian. The study of the influence of geometrical parameters shows that the shot noise depends mainly on the difference of the tunnel barrier thicknesses. Blocage de Coulomb Bruit de grenaille Poisson-Schrödinger Thermoélectricité Transistors à un électron Coulomb blockade Quantum dot Physical simulation Shot noise Single-electron transistor Thermoelectricity
25	Development Of A Miniaturized Automated Production Control System Korkmaz, Ozgur 01 January 2012 (has links) (PDF) In this thesis a custom embedded system and control software developed for an Automated Storage and Retrieval System (AS/RS) which is based on the Computer Integrated Manufacturing Laboratory (CIMLAB) located in the Department of Mechanical Engineering, Middle East Technical University. Primary objective of this study is AS/RSs related control rules can be applicable to the current physical system. The secondary objective is determined as developing the control system in a flexible way that allows adding new equipments to the system and configuring parts of the system. Two types of control board are manufactured and also boards&rsquo / firmware and computer software are developed. These two boards communicate with computer one at a time. Some AS/RS related control rules are implemented at the control software. According to these rules the control software assigns tasks to the related board. Also the control software records necessary information in order to measure the performance of the AS/RS. Several control rules as storage assignment, dwell point and sequencing of storage and retrieval order rules are applicable to the AS/RS without need for low level programming. Because of the physical limitation, batching rules cannot be applied to the current system. Also a graphical user interface is developed for using the system easily and observing the real time status of the system equipments. Two experiments are designed and run in order to show flexibility of the control system. Different control rules applied to each of the experiment. Experiment results put forth the control system was quite successful in meeting the objectives.
26	Simulation and compiler support for communication and mobility for environment sensing / Simulation et support du compilateur pour la communication et la mobilité pour la surveillance de I'environnement Truong, Tuyen Phong 29 August 2018 (has links) Les transmissions radio à longue portée et basse énergie ouvrent de nouveaux champs d'application pour les capteurs, en particulier pour la surveillance de l'environnement. Le protocole radio LoRa permet, par exemple, de connecter des capteurs à une distance pouvant aller jusqu'à dix kilomètres en ligne de visée. Cependant, la grande surface couverte amène plusieurs difficultés, telles que le placement spatial en regard de la topologie géographique, ou la variabilité de la latence des communications. Le positionnement dans I'environnement comporte également des contraintes liées à I'intérêt des points de mesure du phénomène physique. Les critères de conception de ces réseaux tranchent donc avec les méthodes existantes (disques) quand on s'attaque aux terrains complexes. Cette thèse décrit des techniques de simulation basées sur I'analyse géographique cellulaire pour calculer les couvertures radio à longue portée et déduire les caractéristiques radios dans ces situations. Comme la propagation radio n'est qu'un cas particulier de phénomènes physiques, on montre qu'une approche unifiée cellulaire permet de caractériser beaucoup de comportements physiques potentiels. Le cas des fortes pluies et des inondations est étudié. L'analyse de la géographie est réalisée en utilisant des outils de segmentation pour produire des systèmes cellulaires qui sont à leur tour traduits en code pour des calculs de haute performance. La thèse fournit des résultats d'expériences de terrain complexes pratiques en utilisant LoRa, permettant de qualifier l'exactitude de la simulation des couvertures, et les caractéristiques d'ordonnancement des communications. Nous produisons des tables de performance pour les simulations sur les unités de traitement graphique (GPUs) qui montrent que le choix d'une algorithmique parallèle est pertinent sur ces problèmes. / Long-range radio transmissions open new sensor application fields, in particular for environment monitoring. For example, the LoRa radio protocol enables to connect remote sensors at distance as long as ten kilometers in a line-of-sight. However, the large area covered also brings several difficulties, such as the placement of sensing devices in regard to topology in geography, or the variability of communication latency. Sensing the environment also carries constraints related to the inlerest of sensing points in relation with a physical phenomenon. Thus criteria for designs are evolving a lot from the existing methods, especially in complex terrains. This thesis describes simulation techniques based on geography analysis to compute long-range radio coverages and radio characteristics in these situations. As radio propagation is just a particular case of physical phenomena, it is shown how a unified approach also allows to characterize the behavior of potential physical risks. The case of heavy rainfall and flooding is investigated. Geography analysis is achieved using segmentation tools to produce cellular systems which are in turn translated into code for high-þerformance computations. The thesis provides results from practical complex terrain experiments using LoRa which confirm the accuracy of the simulation, and scheduling characteristics for sample networks. Performance tables are produced for these simulations on current Graphics Processing Units (GPUs). Automates cellulaires Terrain complexe LoRa Simulation physique parallèle Propagation de signaux radio Cellular automata Cornplex terrain LoRa Parallel physical simulation Radio signal propagation
27	[en] PHYSICAL SIMULATION AND CHARACTERIZATION OF HEAT AFFECTED ZONE (HAZ) IN DUPLEX STAINLESS STEELS / [pt] SIMULAÇÃO FÍSICA E CARACTERIZAÇÃO MICROESTRUTURAL E MECÂNICA DA ZONA TERMICAMENTE AFETADA (ZTA) EM AÇOS INOXIDÁVEIS DUPLEX LILIA OLAYA LUENGAS 06 February 2018 (has links) [pt] Os aços inoxidáveis duplex (AID) possuem uma estrutura mista de Delta-ferrita e Gamma-austenita em frações de volume aproximadamente iguais e combinam muitas das propriedades benéficas das duas fases, a ferrita fornece alta resistência mecânica e resistência à corrosão, enquanto que a austenita aumenta a ductilidade e a resistência à corrosão uniforme. Uma vantagem dos AID é a resistência à trincas de solidificação, que está associado à soldagem. Pela combinação de propriedades, esses aços são amplamente utilizados na indústria de equipamentos químicos, petróleo e gás, plantas de dessalinização, controle de poluição, usinas elétricas e, mais recentemente, em aplicações off-shore como na extração de petróleo em águas profundas. No entanto, a exposição destes aços a temperaturas elevadas entre 600 graus celsius e 1000 graus celsius, que ocorre durante a soldagem por fusão resulta na precipitação de diferentes compostos, sendo os mais frequentemente encontrados a fase sigma, a fase x, os nitretos de cromo e os carbonetos que reduzem tanto a resistência mecânica quanto a resistência a corrosão. Este trabalho teve como objetivo simular fisicamente as microestruturas da zona termicamente afetada (ZTA) dos AIDs UNS S32304, S32205 e S32750. De modo a obter diferentes ZTAs foi utilizado o simulador termo-mecânico Gleeble, por meio deste simulador foram aplicados vários aportes de calor que permitiram avaliar a evolução microestrutural e as propriedades mecânicas destas zonas. As temperaturas utilizadas nas simulações físicas foram determinadas por meio do software Thermo-Calc assegurando assim as faixas de transformações microestruturais. A temperatura de pico utilizada foi de 1350 graus celsius por 2 segundos; seguida de resfriamento em acordo com o modelo Rykalin-2D, onde um grupo de amostras sofreu resfriamento até alcançar a temperatura de 500 graus celsius seguido de uma têmpera em água e um outro grupo até 250 graus celsius seguido de uma têmpera. Este procedimento foi adotado de modo a identificar a influência dos aportes de calor e as taxas de resfriamento na frações volumétricas das fases obtidas. Foi observado um aumento da fração volumétrica da austenita, assim como um aumento do tamanho de grão da ferrita e um crescimento nos grãos da austenita, em função do aumento do aporte de calor durante as simulações físicas das ZTAs. Estas variações microestruturais ocasionaram o decréscimo da resistência mecânica nos três AID avaliados quando comparados ao respectivo metal de base. / [en] The duplex stainless steels (DSS) have a structure that consist of approximately equivalent amounts of delta-austenita and gamma-ferrite, exhibit excellent properties combinations of both phases. DSS combine the high strength and resistance to stress corrosion cracking come from ferrite, whereas the austenite phase influences ductility and uniform corrosion resistance. The advantage of DSS is solidification cracking resistance; it is associated to welding processes. The application of DSS have being increasingly used as structural material in various industrial sectors, such as chemical, petrochemical, pulp and paper, power generation, desalination, oil and gas, for the constructions in marine and chemical industries and most recently for manufacturing components used in off-shore oil platforms for oil extraction in deep water. However, the exposure of these steels to high temperatures between 600 celsius degrees and 1000 celsius degrees, which occurs during fusion welding results in different compounds precipitation, the most frequently encountered being the sigma phase, the X phase, the chromium nitrides and carbides which reduce both mechanical strength and corrosion resistance. The aim of this work was to simulate physically the Heat Affected Zone (HAZ) microstructures in DSS UNS S32304, S32205 and S32750. In order to obtain different HAZ the Gleeble system was used. Several heat inputs were applied through this simulator, which allowed evaluate the microstructural evolution and the mechanical properties of these zones. The temperatures used in physical simulations were determined by Thermo-Calc Software, this supplied the microstructural transformations temperature ranges. The peak temperature used was 1350 celsius degrees for 2 seconds; followed by cooling in accordance with the Rykalin-2D model; one sample set was cooled to 500 celsius degrees followed by water quenching, and the second sample set was cooled to 250 celsius degrees followed by quenching. This procedure was adopted in order to identify the effect of the final temperature on the phases volume fraction obtained. An increase in the austenite volume fraction, as well as an increase in the ferrite grain size and a widening in the austenite grains, due to the increase of the heat input during the physical simulations of the ZTAs was observed. These microstructural variations caused the tensile strength and Yield strength decreasing in HAZ of DSS evaluated when these zones were compared to the respective base metal. [pt] SIMULACAO FISICA [en] PHYSICAL SIMULATION [pt] ACO INOXIDAVEL DUPLEX [en] DUPLEX STAINLESS STEELS [pt] SISTEMA GLEEBLE [en] GLEEBLE SYSTEM [pt] MICROCARATERIZACAO [en] MICROCHARACTERIZATION [pt] ANALISE DIGITAL DE IMAGENS [en] DIGITAL IMAGE ANALYSIS
28	Fyzikální simulace v počítačových hrách / Physical Simulation in Computer Games Dočkal, Jiří January 2010 (has links) The thesis is concerned with modern game engines, focusing on physical simulation and particle systems. It offers usable architectures overview for a game engine development. The thesis provides characteristic to the most essential game engine's logical modules as scene graph, resource management or rendering. Today's tools used for physical simulation in games are also described. Main part of the thesis concentrates on design and implementation of its own C3D game engine which exploits capabilities of the NVIDIA PhysX physical engine. The thesis includes modern techniques rising from author's gained experience.
29	Etude et modélisation des dégradations des composants de puissance grand gap soumis à des contraintes thermiques et électriques / Study and modeling of large gap power components degradations subjected to thermal and electrical constraints Jouha, Wadia 29 November 2018 (has links) Ce travail vise à étudier la robustesse de trois générations de MOSFET SiC de puissance (Silicon Carbide Metal Oxide Semiconductor Field E_ect Transistors). Plusieurs approches sont suivies : la caractérisation électrique, la modélisation physique, les tests de vieillissement et la simulation physique. Un modèle compact basé sur une nouvelle méthode d'extraction de paramètres et sur les résultats de caractérisation électrique est présenté. Les paramètres extraits du modèle (tensionde seuil, transconductance de la région de saturation et paramètre du champ électrique transverse) sont utilisés pour analyser avec précision le comportement statique de trois générations de MOSFET SiC. La robustesse de ces dispositifs sont étudiées par deux tests : le test HTRB (High Temperature Reverse Bias) et le test ESD (Electrostatic Discharge). Une simulation physique est réalisée pour comprendre l'impact de la température et des paramètres physiques sur les caractérisations électriques des MOSFETs SiC. / This work aims to investigate the robustness of three generations of power SiC MOSFETs (SiliconCarbide Metal Oxide Semiconductor Field E_ect Transistors). Several approaches are followed :electrical characterization, device modeling, ageing tests and physical simulation. An improvedcompact model based on an accurate parameters extraction method and one electrical characterization results is presented. The parameters extracted precisely from the model (thresholdvoltage, saturation region transconductance...) are used to accurately analyze the static behaviorof two generations of SiC MOSFETs. The robustness of these devices are investigated bytwo tests : HTRB (High Temperature Reverse Bias) stress and an ESD (Electrostatic Discharge)stress. Physical simulation is conducted to understand the impact of the temperature and thephysical parameters on the device electrical characterizations. MOSFETs SiC Fiabilité Robustesse Modélisation Simulation physique Vieillissement HTRB ESD Caractérisations électriques MOSFETs SiC Reliability Robustness Modeling Physical simulation Aging HTRB ESD Electrical Characterizations 621.381 52
30	Analysis and Construction of Engaging Facial Forms and Expressions: Interdisciplinary Approaches from Art, Anatomy, Engineering, Cultural Studies, and Psychology Kim, Leejin 19 November 2013 (has links) The topic of this dissertation is the anatomical, psychological, and cultural examination of a human face in order to effectively construct an anatomy-driven 3D virtual face customization and action model. In order to gain a broad perspective of all aspects of a face, theories and methodology from the fields of art, engineering, anatomy, psychology, and cultural studies have been analyzed and implemented. The computer generated facial customization and action model were designed based on the collected data. Using this customization system, culturally-specific attractive face in Korean popular culture, “kot-mi-nam (flower-like beautiful guy),” was modeled and analyzed as a case study. The “kot-mi-nam” phenomenon is overviewed in textual, visual, and contextual aspects, which reveals the gender- and sexuality-fluidity of its masculinity. The analysis and the actual development of the model organically co-construct each other requiring an interwoven process. Chapter 1 introduces anatomical studies of a human face, psychological theories of face recognition and an attractive face, and state-of-the-art face construction projects in the various fields. Chapter 2 and 3 present the Bezier curve-based 3D facial customization (BCFC) and Multi-layered Facial Action Model (MFAF) based on the analysis of human anatomy, to achieve a cost-effective yet realistic quality of facial animation without using 3D scanned data. In the experiments, results for the facial customization for gender, race, fat, and age showed that BCFC achieved enhanced performance of 25.20% compared to existing program Facegen , and 44.12% compared to Facial Studio. The experimental results also proved the realistic quality and effectiveness of MFAM compared with blend shape technique by enhancing 2.87% and 0.03% of facial area for happiness and anger expressions per second, respectively. In Chapter 4, according to the analysis based on BCFC, the 3D face of an average kot-mi-nam is close to gender neutral (male: 50.38%, female: 49.62%), and Caucasian (66.42-66.40%). Culturally-specific images can be misinterpreted in different cultures, due to their different languages, histories, and contexts. This research demonstrates that facial images can be affected by the cultural tastes of the makers and can also be interpreted differently by viewers in different cultures. 3D Animation Computer Graphics Facial Animation Physical Simulation Facial Action Unit HCI Android Facial Anatomy Cultural Studies 꽃미남 미소년 Korean Pop Culture Attractive Face Facial Customization Multi-layered Facial Animation Model Art and Design Arts and Humanities Interdisciplinary Arts and Media

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