Global ETD Search

151	Synoptic and diagnostic analyses of CASP storm #14 Jean, Michel, 1959 Sept. 29- January 1987 (has links) No description available. Canadian Atlantic Storm Program Storms -- Atlantic Provinces Cyclones -- Atlantic Provinces
152	Rapid Prediction of Tsunamis and Storm Surges Using Machine Learning Lee, Michael 27 April 2021 (has links) Tsunami and storm surge are two of the main destructive and costly natural hazards faced by coastal communities around the world. To enhance coastal resilience and to develop effective risk management strategies, accurate and efficient tsunami and storm surge prediction models are needed. However, existing physics-based numerical models have the disadvantage of being difficult to satisfy both accuracy and efficiency at the same time. In this dissertation, several surrogate models are developed using statistical and machine learning techniques that can rapidly predict a tsunami and storm surge without substantial loss of accuracy, with respect to high-fidelity physics-based models. First, a tsunami run-up response function (TRRF) model is developed that can rapidly predict a tsunami run-up distribution from earthquake fault parameters. This new surrogate modeling approach reduces the number of simulations required to build a surrogate model by separately modeling the leading order contribution and the residual part of the tsunami run-up distribution. Secondly, a TRRF-based inversion (TRRF-INV) model is developed that can infer a tsunami source and its impact from tsunami run-up records. Since this new tsunami inversion model is based on the TRRF model, it can perform a large number of tsunami forward simulations in tsunami inversion modeling, which is impossible with physics-based models. And lastly, a one-dimensional convolutional neural network combined with principal component analysis and k-means clustering (C1PKNet) model is developed that can rapidly predict the peak storm surge from tropical cyclone track time series. Because the C1PKNet model uses the tropical cyclone track time series, it has the advantage of being able to predict more diverse tropical cyclone scenarios than the existing surrogate models that rely on a tropical cyclone condition at one moment (usually at or near landfall). The surrogate models developed in this dissertation have the potential to save lives, mitigate coastal hazard damage, and promote resilient coastal communities. / Doctor of Philosophy / Tsunami and storm surge can cause extensive damage to coastal communities; to reduce this damage, accurate and fast computer models are needed that can predict the water level change caused by these coastal hazards. The problem is that existing physics-based computer models are either accurate but slow or less accurate but fast. In this dissertation, three new computer models are developed using statistical and machine learning techniques that can rapidly predict a tsunami and storm surge without substantial loss of accuracy compared to the accurate physics-based computer models. Three computer models are as follows: (1) A computer model that can rapidly predict the maximum ground elevation wetted by the tsunami along the coastline from earthquake information, (2) A computer model that can reversely predict a tsunami source and its impact from the observations of the maximum ground elevation wetted by the tsunami, (3) A computer model that can rapidly predict peak storm surges across a wide range of coastal areas from the tropical cyclone's track position over time. These new computer models have the potential to improve forecasting capabilities, advance understanding of historical tsunami and storm surge events, and lead to better preparedness plans for possible future tsunamis and storm surges. Tsunami Storm Surge Surrogate Modeling Response Surface Methodology Convolutional Neural Network Earthquake Tropical Cyclone Coastal Resilience
153	Pyrolyse de la biomasse en réacteur cyclone - Recherche des conditions optimales de fonctionnement / Biomass pyrolysis in a cyclone reactor - Research of the optimal operating conditions Ndiaye, Fatou Toutie 11 March 2008 (has links) Les procédés conventionnels de transformation thermique de la biomasse sont conçus pour la production d’huiles ou de gaz riches en CO, CO2, H2 et hydrocarbures légers à des fins énergétiques ou chimiques. Le pilote de pyrolyse rapide utilisé dans cette étude comporte un réacteur cyclone, chauffé à ses parois, et capable de mettre en oeuvre la pyroliquéfaction ou la pyrogazéification par le simple jeu des conditions opératoires. Les produits de réaction (charbon, huiles et gaz) sont récupérés et analysés. Les bilans de matière massiques et élémentaires (C, H, O) bouclent de façon très satisfaisante. Les basses températures de paroi et faibles débits de gaz vecteur favorisent la pyroliquéfaction. La production d’huiles augmente avec le débit de biomasse. La taille des particules a une faible influence sur les sélectivités en gaz, liquides et charbon. Un modèle de fonctionnement du cyclone est établi en tenant compte de l’hydrodynamique des phases gaz et solide ainsi que des lois de transferts de chaleur paroi-gaz et paroi-solides dans le cyclone. Ce modèle inclut également un schéma cinétique de pyrolyse rapide intégré dans un modèle de décomposition de la particule, ainsi qu’un modèle de craquage des vapeurs. Validé successivement sur la cellulose puis sur le bois, il permet de prédire les variations des sélectivités en fonction des conditions opératoires. Le modèle montre que les réactions de craquage se déroulent majoritairement dans une mince couche limite proche des parois chaudes. On propose deux lois générales (pyrogazéification et pyroliquéfaction) regroupant les différents paramètres opératoires contrôlant les performances du réacteur / The usual processes of biomass thermal upgrading are designed for the production of bio-oils or of gases rich in CO, CO2, H2 and light hydrocarbons for energy or chemical productions. The laboratory-scaled set-up used in this study includes a cyclone reactor, heated at its walls and able to carry out the fast pyroliquefaction or pyrogazeification by simply changing the operating conditions. The reaction products (charcoal, liquids and gases) are recovered and analyzed. The masses and elementary (C, H, O) balances closures are very accurate. Pyroliquefaction conditions are favoured by low walls temperatures and small carrier gas flowrates. The bio-oils fractions increase with the biomass flowrate. The particles size has only a weak influence on gas, liquids and charcoal selectivities. A model representing the cyclone behaviour is established by taking into account the hydrodynamics of the gases and solids, and the wall-gas and wall-solids heat transfer laws inside the cyclone. This general model includes also a model of particle decomposition (scheme of fast pyrolysis in competition with heat transfers) and a model of vapours cracking. Validated successively with cellulose and then with wood, it allows to predict the variations of the selectivities according to the operating conditions. The model shows that the cracking reactions occur mainly inside a thin boundary layer close to the hot walls. Two laws (pyrogazeification and pyroliquefaction) gathering the various operational parameters that control the performances of the reactor are finally proposed Biomasse Réacteur multifonctionnel Pyrolyse Expérience et modélisation Génie des procédés Energies renouvelables Craquage thermique Réacteur cyclone Cellulose Huiles de pyrolyse Biomass Pyrolysis Multipurposes reactor Experiments and modelling Bio-oils Cellulose Cyclone reactor Thermal cracking Renewable energies Chemical and process engineering
154	La vulnérabilité face au risque cyclonique : le cas du wilayat Bawshar en Oman Mohamed, Anwar Kahlan 05 1900 (has links) No description available. Vulnérabilité Aléa Risque cyclonique Inondation Wilayat Bawshar Cyclone Gonu Vulnerability Hazard Cyclonic risk Flood Wilayat Bawshar Cyclone Gonu
155	L'action humanitaire en cas de catastrophes : droit applicable et limites / Humanitarian action disasters : applicable law and limits Carvallo-Diomandé, Aya Henriette 13 May 2014 (has links) L'action humanitaire a connu un développement exponentiel au sein de la société internationale au cours de ces dernières années. Multiplication des résolutions humanitaires votées par les Nations unies, mise en place d'une justice pénale internationale chargée de réprimer les violations du droit international humanitaire, émergence de la responsabilité de protéger impliquant un recours à la force à des fins humanitaires, développement des organisations non gouvernementales en sont les manifestations majeures. Toutefois, la portée de ces évolutions récentes de l'action humanitaire tant sur le plan de la normativité que de l'opérationnalité est à relativiser. Si les insuffisances du droit de Genève ont pleinement justifié l'émergence d'un droit de New York, ce droit de nature essentiellement déclaratoire éprouve de réelles difficultés à palier les lacunes du droit de Genève. En outre, la mise en oeuvre contemporaine de l'action humanitaire, soulève de nombreux questionnements juridiques liés aux modalités et aux conditions de mise en oeuvre. La présente étude a pour objet d'analyser les évolutions et les limites du cadre juridique de l'action humanitaire afin de faire des propositions pour améliorer la condition juridique des victimes des catastrophes humanitaires. / Humanitarian action has seen such an exponential growth in international society in recent years that humanitarianism seems to be carrying increasing weight in international relations. Some of the main examples of this phenomenon are the increased number of humanitarian resolutions passed by the United Nations, the creation of an international court of justice to reprimand violations of international humanitarian law, the emergence of a sense of responsibility to ensure protection by means of force for humanitarian purposes, and the development of non-governmental organizations. However, the scope of these recent developments in humanitarianism, on both the normative and operational levels, needs to be put into perspective. Indeed, while the shortcomings of Geneva law fully justify the emergence of New York law, this essentially declaratory law faces real challenges in overcoming the short comings in Geneva law. Further more, humanitarian action as it has been carried out in recent years gives rise to a number of legal questions relating to the conditions under which such action is taken. This study aims at analyzing the developments and limits of the humanitarian action legal framework, in order to put forward proposals for improving the legal position of the victims of humanitarian disasters. Action humanitaire Responsabilité de protéger Organisations non gouvernementales Cyclone Nargis Réfugiés et déplacés internes Cour pénale internationale Intervention humanitaire Humanitarian action Responsability to protect Non-Governmental organizations Cyclone Nargis Refugees and displaced International criminal court Humanitarian intervention 340 360
156	Integrated Parallel Simulations and Visualization for Large-Scale Weather Applications Malakar, Preeti January 2013 (has links) (PDF) The emergence of the exascale era necessitates development of new techniques to efficiently perform high-performance scientific simulations, online data analysis and on-the-fly visualization. Critical applications like cyclone tracking and earthquake modeling require high-fidelity and high- performance simulations involving large-scale computations and generate huge amounts of data. Faster simulations and simultaneous online data analysis and visualization enable scientists provide real-time guidance to policy makers. In this thesis, we present a set of techniques for efficient high-fidelity simulations, online data analysis and visualization in environments with varying resource configurations. First, we present a strategy for improving throughput of weather simulations with multiple regions of interest. We propose parallel execution of these nested simulations based on partitioning the 2D process grid into disjoint rectangular regions associated with each subdomain. The process grid partitioning is obtained from a Huffman tree which is constructed from the relative execution times of the subdomains. We propose a novel combination of performance prediction, processor allocation methods and topology-aware mapping of the regions on torus interconnects. We observe up to 33% gain over the default strategy in weather models. Second, we propose a processor reallocation heuristic that minimizes data redistribution cost while reallocating processors in the case of dynamic regions of interest. This algorithm is based on hierarchical diffusion approach that uses a novel tree reorganization strategy. We have also developed a parallel data analysis algorithm to detect regions of interest within a domain. This helps improve performance of detailed simulations of multiple weather phenomena like depressions and clouds, thereby in- creasing the lead time to severe weather phenomena like tornadoes and storm surges. Our method is able to reduce the redistribution time by 25% over a simple partition from scratch method. We also show that it is important to consider resource constraints like I/O bandwidth, disk space and network bandwidth for continuous simulation and smooth visualization. High simulation rates on modern-day processors combined with high I/O bandwidth can lead to rapid accumulation of data at the simulation site and eventual stalling of simulations. We show that formulating the problem as an optimization problem can deter- mine optimal execution parameters for enabling smooth simulation and visualization. This approach proves beneficial for resource-constrained environments, whereas a naive greedy strategy leads to stalling and disk overflow. Our optimization method provides about 30% higher simulation rate and consumes about 25-50% lesser storage space than a naive greedy approach. We have then developed an integrated adaptive steering framework, InSt, that analyzes the combined e ect of user-driven steering with automatic tuning of application parameters based on resource constraints and the criticality needs of the application to determine the final parameters for the simulations. It is important to allow the climate scientists to steer the ongoing simulation, specially in the case of critical applications. InSt takes into account both the steering inputs of the scientists and the criticality needs of the application. Finally, we have developed algorithms to minimize the lag between the time when the simulation produces an output frame and the time when the frame is visualized. It is important to reduce the lag so that the scientists can get on-the- y view of the simulation, and concurrently visualize important events in the simulation. We present most-recent, auto-clustering and adaptive algorithms for reducing lag. The lag-reduction algorithms adapt to the available resource parameters and the number of pending frames to be sent to the visualization site by transferring a representative subset of frames. Our adaptive algorithm reduces lag by 72% and provides 37% larger representativeness than the most-recent for slow networks. Weather Simulations Cyclone Tracking Cloud Tracking Atmospheric Model Numerical Weather Forecasting Online Remote Visualization Computational Steering - Weather Weather Performance Modeling Weather Topology-Aware Mapping Online Data Analysis - Weather Weather Forecasting - Simulation Weather Simulations Critical Weather Applications Cyclone Aila Computer Science
157	An Informed System Development Approach to Tropical Cyclone Track and Intensity Forecasting Roy, Chandan January 2016 (has links) Introduction: Tropical Cyclones (TCs) inflict considerable damage to life and property every year. A major problem is that residents often hesitate to follow evacuation orders when the early warning messages are perceived as inaccurate or uninformative. The root problem is that providing accurate early forecasts can be difficult, especially in countries with less economic and technical means. Aim: The aim of the thesis is to investigate how cyclone early warning systems can be technically improved. This means, first, identifying problems associated with the current cyclone early warning systems, and second, investigating if biologically based Artificial Neural Networks (ANNs) are feasible to solve some of the identified problems. Method: First, for evaluating the efficiency of cyclone early warning systems, Bangladesh was selected as study area, where a questionnaire survey and an in-depth interview were administered. Second, a review of currently operational TC track forecasting techniques was conducted to gain a better understanding of various techniques’ prediction performance, data requirements, and computational resource requirements. Third, a technique using biologically based ANNs was developed to produce TC track and intensity forecasts. Systematic testing was used to find optimal values for simulation parameters, such as feature-detector receptive field size, the mixture of unsupervised and supervised learning, and learning rate schedule. Five types of 2D data were used for training. The networks were tested on two types of novel data, to assess their generalization performance. Results: A major problem that is identified in the thesis is that the meteorologists at the Bangladesh Meteorological Department are currently not capable of providing accurate TC forecasts. This is an important contributing factor to residents’ reluctance to evacuate. To address this issue, an ANN-based TC track and intensity forecasting technique was developed that can produce early and accurate forecasts, uses freely available satellite images, and does not require extensive computational resources to run. Bidirectional connections, combined supervised and unsupervised learning, and a deep hierarchical structure assists the parallel extraction of useful features from five types of 2D data. The trained networks were tested on two types of novel data: First, tests were performed with novel data covering the end of the lifecycle of trained cyclones; for these test data, the forecasts produced by the networks were correct in 91-100% of the cases. Second, the networks were tested with data of a novel TC; in this case, the networks performed with between 30% and 45% accuracy (for intensity forecasts). Conclusions: The ANN technique developed in this thesis could, with further extensions and up-scaling, using additional types of input images of a greater number of TCs, improve the efficiency of cyclone early warning systems in countries with less economic and technical means. The thesis work also creates opportunities for further research, where biologically based ANNs can be employed for general-purpose weather forecasting, as well as for forecasting other severe weather phenomena, such as thunderstorms.
158	Caractérisation des vulnérabilités aux catastrophes " naturelles " : contribution à une évaluation géographique multirisque (mouvements de terrain, séismes, tsunamis, éruptions volcaniques, cyclones) Leone, Frédéric 29 November 2007 (has links) (PDF) Ce mémoire présente à la fois un état des lieux de la recherche scientifique sur le sujet, en réponse à une certaine demande sociale, une synthèse de notre propre activité, et un positionnement scientifique dans le champ de la géographie des risques. Il est alimenté par des réflexions théoriques et méthodologiques plus ou moins abouties, mais illustrées par des résultats concrets issus de nos recherches. Il laisse le champ à des questionnements scientifiques à portée opérationnelle et à des perspectives de recherche visant à mieux caractériser les systèmes de vulnérabilité aux catastrophes naturelles et faciliter ainsi les modes d'évaluation intégrée et spatialisée des risques naturels. Evaluation intégrée, car la vulnérabilité y est appréhendée selon des approches multi-critères propres à caractériser les multiples facettes et facteurs qui la déterminent. Evaluation spatialisée, car le risque est mis en carte, de différentes façons et à différentes échelles, toujours selon une démarche intégrée où se combinent, critères de vulnérabilité, enjeux et aléas. Risque Vulnérabilité Dommage Pertes Indicateurs REX Scénario SIG Mouvements de terrain Séisme Tsunami Eruption volcanique Cyclone
159	Laserskanning av Södra Climate Arena / Laser scanning of Södra Climate Arena Rydberg, Erik, Johannesson, Andreas January 2016 (has links) Rapporten går ut på att se om laserskanning är en bra metod att använda sig av vid ombyggnation, tillbyggnad och renovering. För att få fram ett svar på detta har två takbalkar i Södra Climate Arena skannats av. Vid genomförandet användes en laserskanner från Leica av varianten P30. Försöket innehåller fyra stycken uppställningar som riktas mot sex stycken måltavlor. Informationen som fåtts ut från skanningen i form av en sektion i AutoCAD har jämförts med befintliga ritningar för att se om informationen från skanningen stämmer överens med ritningarna. I modellen som fåtts ut från försöket har också mätning och undersökning skett för att se hur bra det går att mäta i modellen och om det är något som fungerar lätt att använda sig av i praktiken. Arbetet går även ut på att få en god inblick i hur laserskannern Leica P30 fungerar. Time of flight Laserskanning 3D-data Leica P30 Leica Cyclone Autodesk Recap AutoCAD terrester laserskanning Södra Climate Arena takbalkar
160	Estudo do escoamento de gás no interior de ciclones através da técnica de fluidodinâmica computacional. / Study of the gas flow inside cyclones using computational fluid dynamics. Cruz, Fabiana Sanches 31 January 2013 (has links) Neste trabalho, buscou-se investigar a aplicação de uma modelagem RANS, com a utilização do modelo de turbulência das Tensões de Reynolds (RSTM), na modelagem do escoamento de gás no interior de ciclones, especialmente na simulação do movimento periódico do vórtice, conhecido como Precessing Vortex Core (PVC), com apoio da Fluidodinâmica Computacional. Utilizou-se o pacote de CFD de código aberto OpenFOAM, e as simulações foram realizadas em regime transiente. Dois modelos RSTM foram testados, o modelo LRR com os valores padrões para as constantes e uma modificação das constantes do termo de redistribuição. Compararam-se os resultados obtidos com dados da literatura e verificou-se que ambos os modelos representaram o campo médio de velocidade. No entanto, somente o modelo LRR conseguiu reproduzir o campo de flutuações de velocidade. Detectou-se o movimento de precessão do vórtice, que pode ser visualizado através de imagens sequenciais do escoamento, e uma frequência característica do movimento pode ser calculada através do Espectro de potência. / The flow field of a gas cyclone was simulated with a RANS model using Computational Fluid Dynamics (CFD) and the Precession of the Vortex Core (PVC) was investigated. The CFD simulations were carried out using the open source code OpenFOAM and the simulations were performed in a transient regime. Two Reynolds Stress Turbulence Models (RSTM) were investigated - the LRR model with standard constants and another with modified constants in the pressure-strain term. The results obtained by the models were compared with values of mean velocity taken from the literature and predictions were satisfactory. However, only the LRR model with standard constants predicted with precision the fluctuation velocity field. The precessing vortex was detected and illustrated by the flow field visualization and a characteristic frequency was calculated by Power Spectrum Density. Ciclone Computational fluid dynamics Cyclone Fluidodinâmica computacional Modelos de turbulência Precessing vortex core Turbulence Turbulence models Turbulência Vórtice de precessão

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