Global ETD Search

101	Využití metod obrazové analýzy v přenosu tepla. / Image analysis in heat transfer. Hnízdil, Milan January 2008 (has links) Cílem této práce je porovnat vysoko tlaké vodní trysky a vysvětlit čtenáři použité metody. Matematické metody použité v programu jsou také uvedeny v této práci.
102	Fast and approximate computation of Laplace and Fourier transforms / Schnelle und approximative Berechnung von Laplace- und Fourier-Transformationen Melzer, Ines 04 April 2016 (has links) In this thesis, we treat the computation of transforms with asymptotically smooth and oscillatory kernels. We introduce the discrete Laplace transform in a modern form including a generalization to more general kernel functions. These more general kernels lead to specific function transforms. Moreover, we treat the butterfly fast Fourier transform. Based on a local error analysis, we develop a rigorous error analysis for the whole butterfly scheme. In the final part of the thesis, the Laplace and Fourier transform are combined to a fast Fourier transform for nonequispaced complex evaluation nodes. All theoretical results on accuracy and computational complexity are illustrated by numerical experiments. fast Laplace transform fast Fourier transform nonharmonic Fourier series real and complex exponential sums trigonometric approximation 65-02 - Research exposition ddc:510
103	Analysis of Pipeline Systems Under Harmonic Forces Salahifar, Raydin January 2011 (has links) Starting with tensor calculus and the variational form of the Hamiltonian functional, a generalized theory is formulated for doubly curved thin shells. The formulation avoids geometric approximations commonly adopted in other formulations. The theory is then specialized for cylindrical and toroidal shells as special cases, both of interest in the modeling of straight and elbow segments of pipeline systems. Since the treatment avoids geometric approximations, the cylindrical shell theory is believed to be more accurate than others reported in the literature. By adopting a set of consistent geometric approximations, the present theory is shown to revert to the well known Flugge shell theory. Another set of consistent geometric approximations is shown to lead to the Donnell-Mushtari-Vlasov (DMV) theory. A general closed form solution of the theory is developed for cylinders under general harmonic loads. The solution is then used to formulate a family of exact shape functions which are subsequently used to formulate a super-convergent finite element. The formulation efficiently and accurately captures ovalization, warping, radial expansion, and other shell behavioural modes under general static or harmonic forces either in-phase or out-of-phase. Comparisons with shell solutions available in Abaqus demonstrate the validity of the formulation and the accuracy of its predictions. The generalized thin shell theory is then specialized for toroidal shells. Consistent sets of approximations lead to three simplified theories for toroidal shells. The first set of approximations has lead to a theory comparable to that of Sanders while the second set of approximation has lead to a theory nearly identical to the DMV theory for toroidal shells. A closed form solution is then obtained for the governing equation. Exact shape functions are then developed and subsequently used to formulate a finite element. Comparisons with Abaqus solutions show the validity of the formulation for short elbow segments under a variety of loading conditions. Because of their efficiency, the finite elements developed are particularly suited for the analysis of long pipeline systems. Thin Shells Harmonic Forces Finite Element Closed-form Solution Circular Cylindrical Thin Shell Toroidal Thin Shell Fourier Series Tensor Calculus Pipeline Systems Pipe Pipe Bend Elbow
104	Models for coated elastic bodies Gaibotti, Matteo 28 April 2023 (has links) Several technologies involve the coating of a bulk material with a thin layer made up of another material, so as to achieve enhanced mechanical properties for the composite system. The use of coated solids embraces a broad field of applications, so that a strong research effort has been devoted to these systems. From a mechanical point of view, a coating layer diffuses the load on an attached solid in a non-local way, thus introducing a characteristic length, and profoundly affects the mechanical response and failure mechanisms of the coated object. Therefore, the development of mechanical models to describe the behaviour of coated materials plays an important role in engineering design. In the framework of linear elasticity, the case of an elastic thin layer, perfectly bonded to an elastic disk, is analyzed in the present thesis by providing a mathematical tool with which to determine the mechanical response of the coating/bulk complex, which may find application in micro and nano technologies, for instance in the characterization of nanowires via nanoindentation. The coating is modelled by means of an Euler-Bernoulli curved rod, assumed to be perfectly bonded on the boundary of a circular elastic disk. The elastic rod acts as a coating for the disk and its axial inextensibility imposes an isoperimetric constraint on the internal disk, which is constrained to maintain its perimeter constant during the deformation process. The mechanical model for the coating/disk system is formulated for general loading, using the complex potential formalism. The elastic rod becomes equivalent to a Benveniste-Miloh interface characterized by the bending stiffness of the rod; in this way the problem can be solved entirely on the disk through the complex potential formalism and Kolosov- Muskhelishvili potentials. The kinematics and statics of the rod, together with its axial inextensibility, lead to the formulation of a 5th-order differential equation governing the mechanical state at every point on the boundary of the disk. The solution of this equation is obtained by means of a complex Fourier series expansion for the unknown fields on the boundary of the disk, when a particular distribution of the external load is prescribed. The complex variables method shows that the unknown complex coefficients involved in the series expansion depend only on the external load. Hence, all the elastic fields become known on the coating and on the boundary and within the disk. The analytical results are complemented with experiments related to a load distribution which models two equal and opposite concentrated forces. In this regard, two coated disks were designed and then manufactured (with a CNC engraving machine) from a single block of polymethyl methacrylate so that the bonding between the coating and disk was perfect and residual stresses were absent. The samples were tested in a circular polariscope and the results strongly supported the coated disk model, so the photoelastic fringes were very well captured by the elastic solution. Different situations were investigated in order to study the non-local stress diffusion of the coating. The limit case of an isoperimetric disk was also investigated by imposing a vanishing bending stiffness for the coating. This limit situation corresponded to a disk equipped with a device able to preserve the perimeter of the disk during the deformation. Exploiting the framework developed, the bifurcation problem of the coated disk was analyzed, assuming that the coating was subject to a radial pressure of three different types. A closed-form analytical solution was obtained for the bifurcation pressure and modes, showing that the presence of the disk profoundly changed the bifurcation landscape of the coating, forming a circular elastic rod. In fact, the circular rod admits only oval modes, while the coating/disk system displays high-frequency circumferential undulations. The experimental, analytical, and numerical results presented open new possibilities for the design of coated solids of cylindrical geometry, which may find applications in micro and nano technologies, for instance in the characterization of nanowires via nanoindentation.
105	Non-classical convergence results for sums of dependent random variables Phadke, Vidyadhar S. 05 November 2008 (has links) No description available. Mathematics Sums of dependent random variables Distribution of fractional parts Non-classical convergence results Sums of dependent random variables Probability theory Trigonometric series Finite Fourier series
106	Position Estimation in Switched Reluctance Motor Drives Using the First Switching Harmonics of Phase Voltage and Current Ha, Keunsoo 04 August 2008 (has links) Position estimation using only active phase voltage and current is presented to perform high accuracy position sensorless control of a SRM drive. By extracting the amplitude of the first switching harmonic terms of phase voltage and current for a PWM period through Fourier analysis, flux-linkage and position are estimated without external hardware circuitry such as a modulator and demodulator, resulting in increasing cost, as well as large position estimation error produced when the motional back emf is ignored near zero speed. Hence the proposed position estimation scheme covers the entire speed range including the standstill under various loads and it has high resolution information depending on switching frequency. Fourier series and Fast Fourier transform are employed to decompose the phase voltage and current into its first switching harmonic. A two-phase SRM drive system, consisting of an asymmetrical converter and a conventional closed-loop PI current controller, is utilized to validate the performance of the proposed position estimation scheme in comprehensive operating conditions. The estimated values very closely track the actual values in dynamic simulations and experiments. It is shown that the proposed position estimation scheme using Fourier analysis is sufficiently accurate and works satisfactorily at various operating points. This research also proposes an accurate self-inductance measurement method. In general, when applying circulating currents within the body of a ferromagnetic material under conditions of a time varying magnetic flux, the effects of eddy current losses and resistance changes due to heating decrease the magnetic field strength and thereby the reduced magnetic field decreases the magnetic flux-linkage of SRM. These losses make a challenge to the measurement of magnetic characteristics of SRM. These motives lead to propose a measurement methodology based on 60 Hz sinusoidal excitation using a variable AC power supply, which provides an alternative to time domain integration approaches for self-inductance or flux-linkage measurement as well as eliminates error arising from thermal and eddy currents effects. The validation of the proposed method is verified with the correlation between the measurement and FEA results of flux-linkage. Furthermore, this research proposes the solutions for low cost and high efficiency drive systems, consisting of a split AC converter and a two-phase SRM. Its performance is analyzed and verified with experiments at the rated speed under various loads. It is believed that this drive system combined with the proposed position estimation scheme using Fourier analysis is a strong contender to be a low cost motor drive system with single switch per phase having comparable efficiency and acoustic noise level as an asymmetric drive system. / Ph. D. Flux-linkage Estimation First Switching Harmonic FFT Fourier series Low-cost Drive High Efficiency Acoustic Noise Position Estimation Switched Reluctance Motor
107	Konjugovaná funkce / Konjugovaná funkce Bathory, Michal January 2016 (has links) Using interpolation methods, new results on the boundedness of quasilinear joint weak type operators on Lorentz-Karamata (LK) spaces are established. LK spaces generalize many function spaces introduced before in literature, for example, the generalized Lorentz- Zygmund spaces, the Zygmund spaces, the Lorentz spaces and, of course, the Lebesgue spaces. The focus is mainly on the limiting cases of interpolation, where the spaces involved are, in certain sense, very close to the endpoint spaces. The results contain both necessary and sufficient conditions for the boundedness of the given operator on LK spaces. The complete characterization of embeddings of LK spaces is also included and the optimality of achieved results is then discussed. Finally, we apply our results to the conjugate function operator, which is known to be bounded on $L_p$ only if $1<p<\infty.$ Powered by TCPDF (www.tcpdf.org)
108	Um problema de extensão relacionado a raiz quadrada do Laplaciano com condição de fronteira de Neumann / An extension problem related to the square root of the Laplacian with Neumann boundary condition Alves, Michele de Oliveira 15 December 2010 (has links) Neste trabalho definimos o operador não local, raiz quadrada do Laplaciano com condição de fronteira de Neumann, através do método de extensão harmônica. O estudo foi feito com o auxílio das séries de Fourier em domínios limitados, como sendo o intervalo, o quadrado e a bola. Posteriormente, aplicamos nosso estudo, à problemas elípticos não lineares envolvendo o operador não local raiz quadrada do Laplaciano com condição de fronteira de Neumann. / In this work we define the non-local operator, square root of the Laplacian with Neumann boundary condition, using the method of harmonic extension. The study was done with the aid of Fourier series in bounded domains, as the interval, the square and the ball. Subsequently, we apply our study, the nonlinear elliptic problems involving non-local operator square root of the Laplacian with Neumann boundary condition. condições de fronteira de Neumann extensão harmônica Fourier series harmonic extension Neumann boundary conditions non-local operator nonlinear problems operador não local problemas não lineares raiz quadrada do Laplaciano série de Fourier square root of the Laplacian
109	Moment Matching and Modal Truncation for Linear Systems Hergenroeder, AJ 24 July 2013 (has links) While moment matching can effectively reduce the dimension of a linear, time-invariant system, it can simultaneously fail to improve the stable time-step for the forward Euler scheme. In the context of a semi-discrete heat equation with spatially smooth forcing, the high frequency modes are virtually insignificant. Eliminating such modes dramatically improves the stable time-step without sacrificing output accuracy. This is accomplished by modal filtration, whose computational cost is relatively palatable when applied following an initial reduction stage by moment matching. A bound on the norm of the difference between the transfer functions of the moment-matched system and its modally-filtered counterpart yields an intelligent choice for the mode of truncation. The dual-stage algorithm disappoints in the context of highly nonnormal semi-discrete convection-diffusion equations. There, moment matching can be ineffective in dimension reduction, precluding a cost-effective modal filtering step. modal truncation model reduction moment matching dual-stage dimension reduction Lanczos Arnoldi smoothness discrete smoothness Laplacian heat equation convection-diffusion initial boundary value problem Fourier series coefficient decay semi-discrete explicit integration forward Euler linear, time-invariant system.
110	Nonparametric Methods in Spot Volatility Estimation / Nichtparametrische Methoden für das Schätzen der Spot-Volatilität Schmidt-Hieber, Anselm Johannes 26 October 2010 (has links) No description available. Adaptives Schätzen Fourierreihen hochfrequente Daten Volterra Prozess Minimax Mikrostrukturrauschen nichtparametrisches Schätzen Semimartingal Spot-Volatilität Wavelets Adaptive estimation Fourier series high-frequency data Volterra process minimax microstructure noise nonparametric estimation semimartingale spot volatility wavelets

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