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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Metoda konečných prvků v časové oblasti a její aplikace / Finite Element Time Domain and Its Applications

Cigánek, Jan January 2014 (has links)
Disertační práce se zabývá modelováním dispersních materiálů metodou konečných prvků v časové oblasti. V práci jsem navrhl matematický model zahrnující dispersní modely a aplikoval jsem na něj metodu konečných prvků. Pozornost jsem věnoval třem nejvíce používaným dispersním modelům. Jedná se o Debyeho model, Lorentzův model a Drudův model. Dále jsem se zabýval technikami implementace těchto dispersních modelů. Techniky jsem zabudoval do metody konečných prvků. Navíc jsem vyvinul novou metodu založenou na technice digitální filtrace. Funkčnost vyvinutých metod a technik jsem ověřil na řadě testovacích příkladů. Diskutoval jsem dosažené výsledky a navrhuji jejich možná vylepšení.
12

Ensino e aprendizagem do modelo Poisson: uma experiência com modelagem

Miguel, Maria Inez Rodrigues 25 October 2005 (has links)
Made available in DSpace on 2016-04-27T16:57:10Z (GMT). No. of bitstreams: 1 Doutorado Maria Inez Miguel.pdf: 1466295 bytes, checksum: cab4a04224edf6b54669d1e1fa9d3e99 (MD5) Previous issue date: 2005-10-25 / This researche concentrates on the teaching and learning of the Poisson s Model, whose questioning refers to the use of the Mathematical Modeling, to the steps to be considered and to the results both in the didactic interaction and in the acquisition achieved and mistakes made by the participating pupils. We considered the hypotheses that pair-work, computer use and practical experiments might favor the development of the didactical situations in order to validate it or not. For that purpose, a teaching sequence was elaborated based on our interpretation of the Mathematic Modeling Process suggested by Henry (1997) and it was applied to a group of University undergraduates students from the second year of the College of Electric Engineering and Computer Science. We adopted the Didactic Engineering as methodology, which allows for the validation of hypotheses through the confrontation between the two analysis, a priori and a posteriori, and favors the realignment of the activities during the process. The theoretical framework was constructed with some elements of Chevallard s praxeology and Godino s ontological-semiotic approach to cognition and mathematic instruction; the first guided the analysis of the didactic books and the elaboration and presentation of the proposed tasks in the intended sequence; the second was the basis for the determination of meaningful elements in Poisson s Model to be considered in the teaching and guide the result analysis, allowing for the identification of the knowledge acquired that were in accordance with the intended institutional guidelines and those that could be considered learning mistakes. This research lead to the conclusion that not only the use of the Mathematic Modeling is favorable for the study carried out but also that it made it possible for all the modeling steps to be interpreted, adapted and considered essential for the purposes to be achieved, emphasizing that the experiment carried out should be carefully chosen to serve as motivation for the target public and, if possible, contemplate interdisciplinary. Among the several significant elements of Poisson s Model taken as reference, many were acquired by the group of participating pupils. However, some difficulties related to the use of the software, to the interpretation of terms such as: at least, at most, etc and to the symbolic representation persisted throughout the whole process. The construction of Poisson s Model as hypotheses about the experiment carried out proved to be a viable and efficient strategy, guaranteeing relative easiness in the application the model in the most varied situations, including those with proximity with the Binomial Model; that result allows for the suggestion of the introduction of the mentioned model in the way it is presented, replacing the classical way, consisting of definition, example and exercises, or even, through the proximity with the Binomial Model. The use of a software proved to be efficient to expedite the representations and to make it easier for the visualization of properties; however, learning to handle the software cannot be simultaneous to learning the target content under the risk of compromising it. Pair work proved that information exchange, enriched and complemented by the backgrounds of the two individuals involved, allowed for the emergence of new questions and guaranteed greater reliability in the execution of the proposed tasks. / Esta tese é centrada no ensino e na aprendizagem do Modelo de Poisson, seu questinamento refere-se ao uso da Modelagem Matemática, das etapas a serem consideradas e dos resultados, tanto na interação didática como nas aquisições e erros dos alunos participantes. As hipóteses de que o trabalho em dupla, o uso do computador e o experimento realizado na prática pudessem favorecer o desenvolvimento do projeto foram admitidas, a fim de serem validadas, ou não. Para tal, uma seqüência de ensino, elaborada com base nas etapas de Modelagem Matemática de Henry, foi aplicada a um grupo de alunos do segundo ano de graduação em Engenharia Elétrica e Ciência da Computação de uma Instituição de Ensino Superior. No estudo, a metodologia adotada foi a Engenharia Didática que permite a validação das hipóteses pela confrontação entre as análises a priori e a posteriori e favorece o realinhamento das atividades durante o processo. As bases teóricas foram a praxeologia de Chevallard e o enfoque ontológico-semiótico da cognição e instrução matemática de Godino. A primeira norteou a análise dos livros didáticos, a elaboração e a apresentação das tarefas propostas na seqüência pretendida; a segunda fundamentou a determinação de elementos de significado do Modelo de Poisson para serem considerados no ensino e orientar a análise dos resultados, possibilitando a identificação dos conhecimentos adquiridos que estão conforme a pauta institucional e os que podem ser considerados erros de aprendizagem. A pesquisa permitiu concluir que, não só o uso da Modelagem Matemática é favorável ao estudo realizado, como também todas as etapas de modelagem puderam ser interpretadas, adaptadas e consideradas essenciais, para que os objetivos fossem atingidos, salientando-se que o experimento realizado deve ser cuidadosamente selecionado, a fim de servir de motivação aos sujeitos visados e, se possível, contemplar a interdisciplinaridade. Entre os diversos elementos de significado do Modelo de Poisson tomados como referência, muitos foram adquiridos pelo grupo de alunos participantes, embora algumas dificuldades relacionadas à utilização do aplicativo, à interpretação de termos do tipo: ao menos, no máximo, etc., e à representação simbólica persistiram durante todo o processo. A construção do Modelo de Poisson baseada nas hipóteses citadas sobre o experimento realizado mostrou ser uma estratégia viável e eficiente, garantindo relativa facilidade na aplicação do modelo nas mais variadas situações, inclusive, naquelas de aproximação ao Modelo Binomial. O resultado permite que se sugira a introdução do referido modelo nos moldes apresentados, em lugar do modo clássico com definição, exemplo e exercícios, ou ainda, por meio da aproximação ao Modelo Binomial. O uso de um aplicativo mostrou-se eficiente para agilizar as representações e facilitar a visualização de propriedades; no entanto, a aprendizagem da manipulação do aplicativo não pode concorrer simultaneamente com o estudo do conteúdo pretendido sob pena de comprometê-lo. O trabalho em dupla revelou que as trocas de informações, enriquecidas e complementadas pelas duas formações dos sujeitos envolvidos, permitiram o levantamento de novas questões e maior confiabilidade na realização das tarefas propostas.
13

Vzdušný hokej - strojové vidění a herní strategie / Vzdušný hokej - machine vision and game strategy

Sláma, Ondřej January 2020 (has links)
The aim of this diploma thesis is to implement a robotic air hockey table in cooperation with the work of Dominik Jašek [37] . Specifically, the work deals with the implementation of simulation software that models behavior of robotic air hockey table, designing a game strategy for the robot and detecting position of a puck situated on the playing field. In addition, the work was extended by integrating said software modules under one control application and creating a user interface for controlling and managing all the functionalities of the robotic table through a capacitive touch screen.
14

Stanovení hydrodynamického zatížení přelévané mostovky s využitím 2D numerických simulací / Quantification of hydrodynamic load on overflowed bridge deck using 2D numerical simulation

Pavlíček, Michal January 2016 (has links)
The diploma thesis is focused on a quantification of hydrodynamic load of overflowed bridge deck. Solution was pursued by using two–dimensional numerical simulation of open channel flow in vertical plane created in ANSYS 15.0 software (modules: Workbench, Design Modeler, Meshing, Fluent). Values of drag force, lift force, moment, drag coefficient, lift coefficient and moment coefficient is result of computation. Various types of bridge decks were tested in relation to the degree of inundation (inundation ratio) and flow velocity.The thesis provides comparison of numerical simulation with physical experimental testing and result published in accessible resources.
15

Experimentální stanovení hydrodynamického zatížení modelu přelévané mostovky / Experimental determination of the hydrodynamic load of the flooded bridge model

Naiser, Dominik January 2020 (has links)
The diploma thesis deals with experimental determination of hydrodynamic load on the overflowed bridge deck model. In the first part of the thesis the author describes the analysis of the problem together with the basic physical laws and principles that are used or assumed in the measurement itself. In the second part the author describes the measurements in the laboratory of the Faculty of Civil Engineering and its gradual processing. At the end of the work are described the results of measurement, their comparison with numerical modeling, other authors and their possible use in practice.

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