Global ETD Search

11	A alta bacia do rio Piranga (MG): estudo geomorfológico a propósito da condição de equilíbrio do relevo / The upper basin of Pirangas river (MG): geomorphological study concerning the equilibrium condition of the relief William Zanete Bertolini 15 October 2015 (has links) A noção de equilíbrio aplicada ao relevo foi alvo de várias discussões ao longo da edificação do pensamento geomorfológico. Vários autores trataram de ideias a ela relacionada e este se tornou um conceito de grande influência sobre o desenvolvimento da ciência geomorfológica. Apesar das várias nuances associadas ao conceito do ponto de vista geomorfológico, o equilíbrio do relevo admite que haja um comportamento balanceado entre os fluxos de matéria e energia que perpassam por entre os materiais, processos morfogenéticos e formas que constituem o relevo. Baseado na concepção de equilíbrio dinâmico como tentativa de explicar a paisagem da alta bacia do rio Piranga em termos das relações entre formas e processos geomorfológicos o objetivo deste estudo foi o de avaliar se o relevo dessa área planáltica, na região centro-sul de Minas Gerais, área de nascente de uma das grandes bacias hidrográficas da região sudeste do Brasil a do rio Doce apresenta condições morfodinâmicas que permitem caracterizá-lo como em estado de equilíbrio. Para isso foram consideradas análises morfométricas, pedológicas, geoquímicas das águas fluviais e da organização da rede de drenagem numa perspectiva multiescalar contemplando desde a compartimentação regional do relevo até os processos de vertente. Por meio dessas análises verificou-se que as condições dos materiais, processos e formas associados ao relevo, às coberturas pedológicas e à rede de drenagem verificadas no alto rio Piranga reúnem indícios condizentes com uma situação geomorfológica de desequilíbrio morfodinâmico recente e em vigência. Situação desencadeada sobretudo pelo processo de captura fluvial do alto rio Piranga, os resultados morfométricos obtidos são condizentes também com a influência de uma neotectônica regional. O desnivelamento do manto de intemperismo representado sobretudo pela proximidade diferenciada à superfície dos horizontes C de muitos perfis pedológicos, tanto no alto quanto no baixo planalto, é apontado como indicativo de um processo de rejuvenescimento dos solos proporcionado pelas atuais condições morfogenéticas preponderantes às pedogenéticas. A falta de correlação dos gradientes fluviais de canais de 3ª ordem com os declives médios das vertentes demonstra um desajuste entre os processos de vertente e a incisão dos canais. O índice de Hack calculado para estes mesmos canais permite concluir sobre uma franca incisão desses canais nos seus trechos de médio curso. As taxas de desnudação geoquímica anual do relevo, baseadas na carga fluvial dissolvida e variando de 3,46 a 7,91 t/km2.ano, não demonstraram um padrão espacial que se possa associar a um determinado comportamento morfodinâmico relacionado à compartimentação morfológica do alto rio Piranga, por exemplo. A análise do manto de alteração associada a outros fatores em termos da evolução regional do relevo permite indicar com base nessas observações pelos menos duas fases morfogenéticas que estão bem marcadas na paisagem do alto rio Piranga. Uma mais antiga quando se desenvolveram as stone lines provavelmente associada a um soerguimento tectônico proeminente e outra mais recente e atual que se refere ao desequilíbrio geomorfológico em vigência. Por todos estes resultados conclui-se que o desequilíbrio também é uma condição natural nas terras altas da alta bacia do rio Piranga, decorrente de histórias geomorfológicas distintas unificadas a partir da captura do alto rio Piranga. / The concept of equilibrium applied in the study of relief has been central in various discussions over the history of Geomorphology. Several authors thought over ideas involving geomorphological equilibrium, which became an important concept to this science. Despite the slight variations in the core concept, equilibrium condition of relief always takes into account the balance among matter attributes, energy flow, processes and features. Based on the conception that dynamic equilibrium is an theoretical attempt to understand landscape in terms of the relationship between landforms and geomorphological processes, this thesis focused the assessment of the morphodynamical conditions that confirm the state of equilibrium of the relief in upper basin of Piranga River, southeastern Minas Gerais (Brazil). For this purpose were performed morphometric analysis, pedological analysis, geochemical analysis of channel water and drainage network features within a multiscale approach, considering regional relief and hillslope processes. All the analysis demonstrated that this highland has been under geomorphological disequilibrium over the recently time. Such situation has been triggered by a stream capture of upper course of the Piranga River. Results of morphometrical analysis are consonant with the regional neotectonics, which is confirmed by an evident difference in soil thickness, especially for the depth of horizon C in many soils profiles in both high plateau and low plateau. This setting was associated with a soil rejuvenation provided from recent morphogenetic conditions. In other hand, the lack of correlation between channel gradients and average slope shows an important misfit between earlier hillslope and channel processes. Hack\'s index measured for these channels indicate higher fluvial incision rates at middle river segments compared to the other ones. Annual geochemical denudation rates, based on dissolved load, ranging from 3.46 to 7.91 ton.y- 1.km-2, had not expressed any spatial pattern neither correlation to other data. The analysis of weathering mantle and other geomorphological factors permit the definition of two wellmarked morphogenetic phases for the upper Piranga River landscape: a previous phase, when stone lines are associated with an uplift condition; and the present one with an active disequilibrium. From the results, it was concluded that disequilibrium is a natural condition on both plateaus of Piranga River, due to their specific geomorphological evolution integrated by the stream capture of upper Piranga River. Alto rio Piranga Análise multiescalar Desequilíbrio Geomorfologia Disequilibrium Geomorphology Multiscale analysis Upper Pirangas river
12	Prévision de la durée de vie à l’écaillage des barrières thermiques / Lifetime prediction to spallation of a thermal barrier coatings Soulignac, Romain 18 December 2014 (has links) Cette étude porte sur la modélisation de la durée de vie à l'écaillage des barrières thermiques pour aubes de turbines aéronautiques. La caractérisation expérimentale de l'adhérence du revêtement combine l'identification de la durée de vie - qualifiée par l'écaillage macroscopique de la céramique - à une caractérisation de l'endommagement à l'échelle de la microstructure du revêtement et en particulier à la dégradation des interfaces céramique / oxyde / métal. Des essais de compression uniaxiale sur des éprouvettes en AM1 revêtues NiAlPt et YSZ par EB-PVD, vieillies en fatigue thermique et mécano-thermique permettent d'estimer l'adhérence du revêtement. Ces essais sont complétés par des essais de propagation du délaminage interfacial par compression. Un essai original de compression in situ en laminographie aux rayons X a également permis d'analyser l'écaillage et la propagation du front de délaminage. Tous ces essais sont instrumentés et équipés de moyens d'observation permettant de réaliser des mesures de surfaces délaminées ou écaillées et de déterminer leur évolution en fonction des déformations locales mesurées.Une analyse microstructurale complète l'étude afin de comprendre l'influence du vieillissement thermique ou mécano-thermique sur l'évolution de l'endommagement du système. Cette analyse porte sur les mécanismes d'oxydation, de diffusion, de changement de phase principalement dans l'oxyde et la sous-couche. Elle est complétée par l'étude de l'ondulation de surface au cours du cyclage thermique, phénomène de « rumpling », et de ses conséquences, notamment au niveau de l'endommagement global de l'interface et de son adhérence. Le lien entre endommagement de l'interface à l'échelle d'imperfections de rugosité (quelques microns) et de la propagation d'une fissure d'interface (quelques dizaines à quelques centaines de microns) est analysé numériquement par la méthode des zones cohésives.Ces deux études complémentaires ont permis d'établir un modèle phénoménologique de durée de vie à l'écaillage. Celui-ci se base sur une estimation de l'énergie contenue dans la couche de céramique comparée à la valeur théorique d'énergie critique à rupture obtenue par un modèle d'endommagement, fonction de l'oxydation et des paramètres de chargement mécano-thermique. Ce modèle est implémenté en post-processeur d'un calcul par éléments finis facilitant son utilisation industrielle. / This study aims to model lifetime of thermal barrier coating (TBC) used on aircraft turbine blades. Experimental characterization of the coating adherence combines the lifetime identification – described by macroscopic spallation of the ceramic – with damage estimation trough the analysis of the influence of the microstructure of the coating and evolutions of interfaces ceramic / oxide / metal.Adherence of the ceramic is assessed using uniaxial mechanical compressive tests on AM1 specimen coated with NiAlPt bond coat and EB-PVD yttria stabilized zirconia varying the thermal and thermo-mechanical fatigue ageing conditions. Those tests are completed with analysis of interfacial crack propagation. A pioneering in situ compressive test using X-ray laminography has also been developed to analyze spallation and further delamination. The use of in-situ surface imaging by CCD cameras has enabled measurement of delaminated or spalled areas as function of measured local strain.The influence of thermal or thermo mechanical ageing on damage evolution of TBCs is studied through a microstructural analysis. Oxidation, diffusion and phase transformation mechanisms in the alumina and the bond coat are main parts of this analysis. Moreover the oxide rumpling and its consequences have been detailed, particularly through the measurement of global interfacial damage and adherence evolution. The link between interfacial damage at the scale of local defects (few microns) and the propagation of an interfacial crack (from tens to hundreds of microns) is numerically analyzed with a cohesive zone model.Those two spatial length of analysis were used to build a phenomenological lifetime model to spallation. This model was based on the assessment of the elastic strain energy stored in the ceramic layer and it comparison to fracture energy. A damage model is used to model the fracture strain energy evolution as a function of oxidation and thermo mechanical loading. This model is implemented in post processor of a FEM analysis, making its industrial use easier. Fatigue Mécano-Thermique Endommagement Changement d’échelle Flambage Thermo-Mechanical Fatigue Damage Multiscale analysis Buckling 620
13	Analyse multiéchelle de l'usinage des matériaux biosourcés : Application aux agrocomposites / Multiscale analysis of machining of biobased materials : Application to biocomposites Chegdani, Faissal 08 November 2016 (has links) Les fibres naturelles telles que le lin, le chanvre, le bambou ou la miscanthus sont de plus en plus utilisées pour renforcer les composites industriels afin de réduire le poids, le coût et l’impact environnemental des produits. Elles remplacent les composites conventionnels tels que les composites à base de résine polymère et fibres synthétiques. Les méthodes de parachèvement par usinage de ces produits agrocomposites demeurent un verrou technologique et un défi scientifique. Ceci est dû principalement à la structure complexe des fibres végétales constituée de cellulose et issue des feuilles ou des tiges de plantes cultivées. Ce travail de thèse propose une analyse multiéchelle du comportement à la coupe de ces matériaux renouvelables qui exploite un procédé 2D de coupe orthogonale et un procédé 3D de coupe par fraisage. L’objectif étant de mieux appréhender les mécanismes physiques majeurs activés par le processus d’enlèvement de matière des agrocomposites. Aussi, pour identifier les effets d’échelle observés en usinage, une caractérisation tribo-mécanique des agrocomposites stratifiés par nanoindentation et rayage ainsi que des essais mécaniques spécifiques ont été réalisés. Les fibres végétales se différencient des fibres synthétiques par une flexibilité transversale qui leur confère une grande capacité à se déformer lors du contact avec l’outil de coupe. Ainsi, la rigidité mécanique du contact outil/matière contrôle ici la coupe par cisaillement plastique des fibres végétales et, par conséquence, la qualité de la surface usinée des agrocomposites. Les fibres végétales, associées à une matrice polymère thermoplastique, présentent par ailleurs un comportement mécanique élastoplastique avec un endommagement ductile lorsqu’elles sont sollicitées suivant leur direction transversale. Ceci explique la production de copeaux continus en usinage par opposition aux composites synthétiques conventionnels. Les comportements mécanique et tribologique des fibres végétales en usinage sont fonction de l’échelle de contact. Ceci explique le caractère multiéchelle de la coupe des agrocomposites dont l’usinabilité est intiment liée à la taille du renfort fibreux. / Natural fibers such as flax, hemp, bamboo or miscanthus are increasingly used as fibrous reinforcement in order to reduce the weight, the cost and the environmental impact of products. They replace the conventional composites based on polymer resin and synthetic fibers. The finishing operations by machining of these biocomposite products remain a technological issue and a scientific challenge. This is mainly due to the complex structure of natural fibers composed of cellulose and extracted from plant leaf or plant stem. This research work provides a multiscale analysis of cutting behavior of these renewable materials in 2D orthogonal cutting and 3D milling processes. The primary objective is to better understand the major physical mechanisms activated by the material removal process of biocomposites. Furthermore, to identify the scale effects observed in machining, a tribo-mechanical characterization of stratified biocomposites by nanoindentation and scratch as well as specific mechanical tests were carried out. Natural fibers are distinguished from synthetic fibers by a transverse flexibility, which enable them good ability to deform upon contact with the cutting tool. Thus, the mechanical tool/material contact stiffness controls the cutting by plastic shearing of plant fibers and, consequently, it controls the quality of the biocomposite-machined surfaces. Otherwise, natural fibers, associated with a thermoplastic polymer matrix, have an elastoplastic behavior with a ductile damage when they are stressed in their transverse direction. This explains the production of continuous chips when machining biocomposites, unlike conventional synthetic composites. The mechanical and tribological behaviors of plant fibers in machining are dependent on the contact scale. This explains the multiscale cutting character of biocomposites where the machinability is intimately related to the size of the fibrous reinforcement. Usinage Agrocomposites Analyse multiéchelle Frottement Nanoindentation Fibre végétale Machining Biocomposites Multiscale analysis Friction Nanoindentation Plant fiber
14	Mining Dynamic Recurrences in Nonlinear and Nonstationary Systems for Feature Extraction, Process Monitoring and Fault Diagnosis Chen, Yun 07 April 2016 (has links) Real-time sensing brings the proliferation of big data that contains rich information of complex systems. It is well known that real-world systems show high levels of nonlinear and nonstationary behaviors in the presence of extraneous noise. This brings significant challenges for human experts to visually inspect the integrity and performance of complex systems from the collected data. My research goal is to develop innovative methodologies for modeling and optimizing complex systems, and create enabling technologies for real-world applications. Specifically, my research focuses on Mining Dynamic Recurrences in Nonlinear and Nonstationary Systems for Feature Extraction, Process Monitoring and Fault Diagnosis. This research will enable and assist in (i) sensor-driven modeling, monitoring and optimization of complex systems; (ii) integrating product design with system design of nonlinear dynamic processes; and (iii) creating better prediction/diagnostic tools for real-world complex processes. My research accomplishments include the following. (1) Feature Extraction and Analysis: I proposed a novel multiscale recurrence analysis to not only delineate recurrence dynamics in complex systems, but also resolve the computational issues for the large-scale datasets. It was utilized to identify heart failure subjects from the 24-hour heart rate variability (HRV) time series and control the quality of mobile-phone-based electrocardiogram (ECG) signals. (2) Modeling and Prediction: I proposed the design of stochastic sensor network to allow a subset of sensors at varying locations within the network to transmit dynamic information intermittently, and a new approach of sparse particle filtering to model spatiotemporal dynamics of big data in the stochastic sensor network. It may be noted that the proposed algorithm is very general and can be potentially applicable for stochastic sensor networks in a variety of disciplines, e.g., environmental sensor network and battlefield surveillance network. (3) Monitoring and Control: Process monitoring of dynamic transitions in complex systems is more concerned with aperiodic recurrences and heterogeneous types of recurrence variations. However, traditional recurrence analysis treats all recurrence states homogeneously, thereby failing to delineate heterogeneous recurrence patterns. I developed a new approach of heterogeneous recurrence analysis for complex systems informatics, process monitoring and anomaly detection. (4) Simulation and Optimization: Another research focuses on fractal-based simulation to study spatiotemporal dynamics on fractal surfaces of high-dimensional complex systems, and further optimize spatiotemporal patterns. This proposed algorithm is applied to study the reaction-diffusion modeling on fractal surfaces and real-world 3D heart surfaces. Sensor Network Multiscale Analysis Spatiotemporal Model Computer Simulation and Optimization Healthcare Informatics Industrial Engineering
15	Investiční horizont v CAPM: Porovnání vlnkové dekompozice a fraktálové regrese / Investment horizon in the CAPM: A comparison of a wavelet-based decomposition and the fractal regression Spousta, Radek January 2021 (has links) This thesis study two promising methods used to define the multiscale CAPM - the wavelet-based decomposition and the fractal regression. Their estimates, obtained on monthly excess return on ten portfolios formed on beta in the US market, are compared in the period from November 2000 to October 2020 and, subsequently, in the period from November 1965 to October 2020. In the first period, the multiscale beta is not significantly different from the original single-scale beta for most of the portfolios. Contrary, both methods uncover significant multiscale behavior of the beta in the second period. Specifically, the high-beta portfolios have higher multiscale beta at longer investment horizons, mainly at wavelet scale 3 and scales 12-24 of the fractal regression. Overall, both methods deliver consistent results, and seem suitable for extending the CAPM with an investment horizon. JEL Classification Keywords G12, C20 CAPM, asset pricing, multiscale analysis, wavelets, fractal regression Title Investment horizon in the CAPM: A comparison of a wavelet-based decomposition and the fractal regression
16	A Geometric Framework for Transfer Learning Using Manifold Alignment Wang, Chang 01 September 2010 (has links) Many machine learning problems involve dealing with a large amount of high-dimensional data across diverse domains. In addition, annotating or labeling the data is expensive as it involves significant human effort. This dissertation explores a joint solution to both these problems by exploiting the property that high-dimensional data in real-world application domains often lies on a lower-dimensional structure, whose geometry can be modeled as a graph or manifold. In particular, we propose a set of novel manifold-alignment based approaches for transfer learning. The proposed approaches transfer knowledge across different domains by finding low-dimensional embeddings of the datasets to a common latent space, which simultaneously match corresponding instances while preserving local or global geometry of each input dataset. We develop a novel two-step transfer learning method called Procrustes alignment. Procrustes alignment first maps the datasets to low-dimensional latent spaces reflecting their intrinsic geometries and then removes the translational, rotational and scaling components from one set so that the optimal alignment between the two sets can be achieved. This approach can preserve either global geometry or local geometry depending on the dimensionality reduction approach used in the first step. We propose a general one-step manifold alignment framework called manifold projections that can find alignments, both across instances as well as across features, while preserving local domain geometry. We develop and mathematically analyze several extensions of this framework to more challenging situations, including (1) when no correspondences across domains are given; (2) when the global geometry of each input domain needs to be respected; (3) when label information rather than correspondence information is available. A final contribution of this thesis is the study of multiscale methods for manifold alignment. Multiscale alignment automatically generates alignment results at different levels by discovering the shared intrinsic multilevel structures of the given datasets, providing a common representation across all input datasets. Dimensionality Reduction Manifold Alignment Multiscale Analysis Representation Learning Topic Model Transfer Learning Computer Sciences
17	A Multiscale Method for Simulating Fracture in Polycrystalline Metals Saether, Erik 25 June 2008 (has links) The emerging field of nanomechanics is providing a new focus in the study of the mechanics of materials, particularly in simulating fundamental atomic mechanisms involved in the initiation and evolution of damage. Simulating fundamental material processes using first principles in physics strongly motivates the formulation of computational multiscale methods to link macroscopic failure to the underlying atomic processes from which all material behavior originates. A combined concurrent and sequential multiscale methodology is developed to analyze fracture mechanisms across length scales. Unique characterizations of grain boundary fracture mechanisms in an aluminum material system are performed at the atomic level using molecular dynamics simulation and are mapped into cohesive zone models for continuum modeling within a finite element framework. Fracture along grain boundaries typically exhibit a dependence of crack tip processes (i.e. void nucleation in brittle cleavage or dislocation emission in ductile blunting) on the direction of propagation due to slip plane orientation in adjacent grains. A new method of concurrently coupling molecular dynamics and finite element analysis frameworks is formulated to minimize the overall computational requirements in simulating atomistically large material regions. A sequential multiscale approach is advanced to model microscale polycrystal domains in which atomistically-based cohesive zone parameters are incorporated into special directional decohesion finite elements that automatically apply appropriate ductile or brittle cohesive properties depending on the direction of crack propagation. The developed multiscale analysis methodology is illustrated through a parametric study of grain boundary fracture in three-dimensional aluminum microstructures. / Ph. D. Polycrystalline Metals Decohesion Finite Elements Cohesive Zone Models Molecular Dynamics Finite element method Multiscale Analysis
18	Multiscale Analysis of Failure in Heterogeneous Solids Under Dynamic Loading Love, Bryan Matthew 23 November 2004 (has links) Plane strain transient finite thermomechanical deformations of heat-conducting particulate composites comprised of circular tungsten particulates in nickel-iron matrix are analyzed using the finite element method to delineate the initiation and propagation of brittle/ductile failures by the nodal release technique. Each constituent and composites are modeled as strain hardening, strain-rate-hardening and thermally softening microporous materials. Values of material parameters of composites are derived by analyzing deformations of a representative volume element whose minimum dimensions are determined through numerical experiments. These values are found to be independent of sizes and random distributions of particulates, and are close to those obtained from either the rule of mixtures or micromechanics models. Brittle and ductile failures of composites are first studied by homogenizing their material properties; subsequently their ductile failure is analyzed by considering the microstructure. It is found that the continuously varying volume fraction of tungsten particulates strongly influences when and where adiabatic shear bands (ASB) initiate and their paths. Furthermore, an ASB initiates sooner in the composite than in either one of its constituents. We have studied the initiation and propagation of a brittle crack in a precracked plate deformed in plane strain tension, and a ductile crack in an infinitely long thin plate with a rather strong defect at its center and deformed in shear. The crack may propagate from the tungsten-rich region to nickel-iron-rich region or vice-a-versa. It is found that at the nominal strain-rate of 2000/s the brittle crack speed approaches Rayleigh's wave speed in the tungsten-plate, the nickel-iron-plate shatters after a small extension of the crack, and the composite plate does not shatter; the minimum nominal strain-rate for the nickel-iron-plate to shatter is 1130/s. The ductile crack speed from tungsten-rich to tungsten-poor regions is nearly one-tenth of that in the two homogeneous plates. The maximum speed of a ductile crack in tungsten and nickel-iron is found to be about 1.5 km/s. Meso and multiscale analyses have revealed that microstructural details strongly influence when and where ASBs initiate and their paths. ASB initiation criteria for particulate composites and their homogenized counterparts are different. / Ph. D. adiabatic shear band multiscale analysis tungsten heavy alloys Finite element method ductile fracture
19	Bioassessment and the Partitioning of Community Composition and Diversity Across Spatial Scales in Wetlands of the Bonneville Basin Keleher, Mary Jane 13 July 2007 (has links) The Bonneville Basin encompasses an area that was covered by ancient Lake Bonneville and which today lies within the Great Basin province. The Bonneville Basin is distinguished geologically by its characteristic parallel north-south mountain ranges that are separated by broad, alluviated desert basins and valleys. Benches and other shoreline features of ancient Lake Bonneville prominently mark the steep, gravelly slopes of these ranges. Numerous artesian desert springs are present at the base of the mountains and in the valley floors that form various sizes of both isolated wetlands and wetland complexes. Many these wetlands are some of the most unique and currently some of the most threatened wetlands in the United States. Several aquatic species and communities have maintained an existence as relict populations and communities in these wetlands since the receding of Lake Bonneville over 10,000 years ago. For example, Hershler has described 58 previously undescribed species of hydrobiid snails, 22 of which are endemic to single locations. Like hydrobiid snails, numerous other species, such as the least chub, Iotichthys phlegethontis and the Columbia spotted frog, Rana luteioventris, depend on these wetlands for their continued existence, many of which are already imperiled. The continued decline and loss of these wetlands would further push many of these species toward endangerment and/or extinction. Several factors have already eliminated or altered many of these habitats including capping and filling,water depletions, agricultural practices, livestock grazing, and introduction of nonnative species. In recent years, the significant loss and degradation of wetlands resulting in sensitive species designations have provided impetus for resource agencies to develop and implement management plans to conserve and protect these vital ecosystems. One problem facing appropriate management is the lack of biological information for determining which wetlands should receive protection priorities based on the presence of viable, functioning characteristics. The purpose of this dissertation project was to obtain biological information needed to support defensible decisions concerning conservation, protection, acquisition, restoration, and mitigation of the artesian springs in the Bonneville Basin. The primary objectives of this project were to 1) Develop bioassessment procedures for artesian wetlands of the Bonneville Basin using macroinvertebrates and 2) Determine patterns of community composition and diversity for macroinvertebrates and metaphyton algae at multiple scales in Bonneville Basin artesian wetlands. Bonneville Basin bioassessment macroinvertebrates metaphyton algae community composition community diversity desert wetlands artesian springs multiscale analysis Biology
20	Quantengraphen mit zufälligem Potential / Quantum Graphs with a random potential Schubert, Carsten 11 April 2012 (has links) (PDF) Ein metrischer Graph mit einem selbstadjungierten, negativen Laplace-Operator wird Quantengraph genannt. In dieser Arbeit werden Transporteigenschaften zufälliger Laplace-Operatoren betrachtet. Dazu wird die Multiskalenanalyse (MSA) von euklidischen Räumen auf metrische Graphen angepasst. Eine Überdeckung der metrischen Graphen wird aus gleichmäßig polynomiellem Wachstum und der gleichmäßigen Beschränkung der Kantenlängen gewonnen. Als Hilfsmittel für die MSA werden eine Combes-Thomas-Abschätzung und eine Geometrische Resolventenungleichung bewiesen. Zusammen mit einer Wegner-Abschätzung und der Existenz von verallgemeinerten Eigenfunktionen wird mittels der modifizierten MSA spektrale Lokalisierung (d.h. reines Punktspektrum) mit polynomiell fallenden Eigenfunktionen am unteren Rand des Spektrums für negative Laplace-Operatoren mit zufälligem Potential geschlossen. Dabei sind alle Randbedingungen, die eine nach unten beschränkten Operator liefern, wählbar. / We prove spectral localization for infinite metric graphs with a self-adjoint Laplace operator and a random potential. Therefor we adapt the multiscale analysis (MSA) from the euclidean case to metric graphs. In the MSA a covering of the graph is needed which is obtained from a uniform polynomial growth of the graph. The geometric restrictions of the graph contain a uniform bound on the edge lengths. As boundary conditions we allow all settings which give a lower bounded self-adjoint operator with an associated quadratic form. The result is spectral localization (i.e. pure point spectrum) with polynomially decaying eigenfunctions in a small interval at the ground state energy. zufälliger Schrödingeroperator Quantengraphen Lokalisierung Multiskalenanalyse spectral theory random Schrödinger operator quantum graphs localization multiscale analysis ddc:510 Spektraltheorie Anderson-Lokalisation

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