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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.
1

Random Walk With Absorbing Barriers Modeled by Telegraph Equation With Absorbing Boundaries

Fan, Rong 01 August 2018 (has links)
Organisms have movements that are usually modeled by particles’ random walks. Under some mathematical technical assumptions the movements are described by diffusion equations. However, empirical data often show that the movements are not simple random walks. Instead, they are correlated random walks and are described by telegraph equations. This thesis considers telegraph equations with and without bias corresponding to correlated random walks with and without bias. Analytical solutions to the equations with absorbing boundary conditions and their mean passage times are obtained. Numerical simulations of the corresponding correlated random walks are also performed. The simulation results show that the solutions are approximated very well by the corresponding correlated random walks and the mean first passage times are highly consistent with those from simulations on the corresponding random walks. This suggests that telegraph equations can be a good model for organisms with the movement pattern of correlated random walks. Furthermore, utilizing the consistency of mean first passage times, we can estimate the parameters of telegraph equations through the mean first passage time, which can be estimated through experimental observation. This provides biologists an easy way to obtain parameter values. Finally, this thesis analyzes the velocity distribution and correlations of movement steps of amoebas, leaving fitting the movement data to telegraph equations as future work.
2

Função H de Fox e aplicações no cálculo fracionário / Fox H function and applications in the fractional calculus

Costa, Felix Silva, 1982- 18 August 2018 (has links)
Orientador: Edmundo Capelas de Oliveira / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Matemática, Estatística e Computação Científica / Made available in DSpace on 2018-08-18T19:21:10Z (GMT). No. of bitstreams: 1 Costa_FelixSilva_D.pdf: 1599119 bytes, checksum: dddbc1cbaa34b9a87f2c20ebcaddd8fa (MD5) Previous issue date: 2011 / Resumo: Neste trabalho é apresentado um estudo sistemático da função H de Fox e aplicações no cálculo fracionário. Inicialmente é feito um estudo da função hipergeométrica e suas possíveis generalizações, logo em seguida é definida a integral de Mellin-Barnes e a função G de Meijer, em conjunto com suas propriedades e seus casos particulares. Depois é definida a função H de Fox, objetivo principal do trabalho, e seu atual campo de aplicação, que é o cálculo fracionário. Finalmente, apresentam-se as aplicações envolvendo a função H de Fox e o cálculo fracionário. Das três aplicações, os dois primeiros resultados correspondem a duas generalizações: uma da equação do telégrafo e a outra da equação de Schrödinger. Enfim, é discutida uma generalização da equação de onda-difusão no caso em que as condições iniciais são periódicas / Abstract: This work presents a systematic study of the Fox H function and its possible applications in fractional calculus. It begins with a study about the hypergeometric function and its possible generalizations; after that, the Mellin-Barnes integral and the Meijer G function are defined and their properties and particular cases are presented. The Fox H function is then defined and its current field of application, fractional calculus, is discussed. In the sequence some applications involving the Fox H function and fractional calculus are presented, which constitute its main results; the two first results involve the telegraph equation and the Schrödinger equation in their generalized sense. Finally, one discusses a generalization of the wave-diffusion equation in the case in which the initial conditions are periodic / Doutorado / Matematica Aplicada / Doutor em Matemática Aplicada
3

Metody numerické inverzní Laplaceovy transformace pro elektrotechniku a jejich použití / Methods of Numerical Inversion of Laplace Transforms for Electrical Engineering and Their Applications

Al-Zubaidi R-Smith, Nawfal January 2018 (has links)
Numerické metody inverzní Laplaceovy transformace (NILT) se staly důležitou částí numerické sady nástrojů praktikujících a výzkumných pracovníků v mnoha vědeckých a inženýrských oborech, zejména v aplikované elektrotechnice. Techniky NILT zejména pomáhají při získávání výsledků simulací v časové oblasti v různých aplikacích. Příkladem jsou řešení obyčejných diferenciálních rovnic, které se objevují např. při analýze obvodů se soustředěnými parametry, nebo řešení parciálních diferenciálních rovnic objevujících se v systémech s rozprostřenými parametry, např. při zkoumání problematiky integrity signálů. Obecně platí, že většina dostupných 1D NILT metod je velmi specifická, tj. funguje dobře na několika typech funkcí a tudíž na omezeném počtu aplikací; Cílem této práce je podrobně se věnovat těmto numerickým metodám, vývoji univerzálních metod NILT a jejich rozšíření na multidimenzionální NILT, které mohou pokrývat širokou oblast aplikací a mohly by poskytnout praktický mechanism pro efektivnější způsob analýzy a simulace v časové oblasti. Myšlenky výzkumu jsou prezentovány v rámci diskusí nad širokou škálou případových studií a aplikací; Například metody NILT se používají při řešení přenosových vedení, včetně vícevodičových, a dokonce i při řešení slabě nelinárních obvodů při použití NILT více proměnných. Pomocí metody NILT mohou být s výhodou uvažovány parametry prvků závislé na kmitočtu a prvky necelistvých řádů v jejich příslušných modelech mohou být zahrnuty velmi přesným a jednoduchým způsobem.

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