Kaiserslautern - Fachbereich Mathematik
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Faculty / Organisational entity
The thesis is concerned with multiscale approximation by means of radial basis functions on hierarchically structured spherical grids. A new approach is proposed to construct a biorthogonal system of locally supported zonal functions. By use of this biorthogonal system of locally supported zonal functions, a spherical fast wavelet transform (SFWT) is established. Finally, based on the wavelet analysis, geophysically and geodetically relevant problems involving rotation-invariant pseudodifferential operators are shown to be efficiently and economically solvable.
The desire to model in ever increasing detail geometrical and physical features has lead to a steady increase in the number of points used in field solvers. While many solvers have been ported to parallel machines, grid generators have left behind. Sequential generation of meshes of large size is extremely problematic both in terms of time and memory requirements. Therefore, the need for developing parallel mesh generation technique is well justified. In this work a novel algorithm is presented for automatic parallel generation of tetrahedral computational meshes based on geometrical domain decomposition. It has a potential to remove this bottleneck. Different domain decomposition approaches and criteria have been investigated. Questions regarding time and memory consumption, efficiency of computations and quality of generated surface and volume meshes have been considered. As a result of the work parTgen (partitioner and parallel tetrahedral mesh generator) software package based on the developed algorithm has been created. Several real-life examples of relatively complex structures involving large meshes (of order 10^7-10^8 elements) are given. It has been shown that high mesh quality is achieved. Memory and time consumption are reduced significantly, and parallel algorithm is efficient.
This dissertation is intended to transport the theory of Serre functors into the context of A-infinity-categories. We begin with an introduction to multicategories and closed multicategories, which form a framework in which the theory of A-infinity-categories is developed. We prove that (unital) A-infinity-categories constitute a closed symmetric multicategory. We define the notion of A-infinity-bimodule similarly to Tradler and show that it is equivalent to an A-infinity-functor of two arguments which takes values in the differential graded category of complexes of k-modules, where k is a commutative ground ring. Serre A-infinity-functors are defined via A-infinity-bimodules following ideas of Kontsevich and Soibelman. We prove that a unital closed under shifts A-infinity-category over a field admits a Serre A-infinity-functor if and only if its homotopy category admits an ordinary Serre functor. The proof uses categories and Serre functors enriched in the homotopy category of complexes of k-modules. Another important ingredient is an A-infinity-version of the Yoneda Lemma.
The present work deals with the (global and local) modeling of the windfield on the real topography of Rheinland-Pfalz. Thereby the focus is on the construction of a vectorial windfield from low, irregularly distributed data given on a topographical surface. The developed spline procedure works by means of vectorial (homogeneous, harmonic) polynomials (outer harmonics) which control the oscillation behaviour of the spline interpoland. In the process the characteristic of the spline curvature which defines the energy norm is assumed to be on a sphere inside the Earth interior and not on the Earth’s surface. The numerical advantage of this method arises from the maximum-minimum principle for harmonic functions.
In the theoretical part of this thesis, the difference of the solutions of the elastic and the elastoplastic boundary value problem is analysed, both for linear kinematic and combined linear kinematic and isotropic hardening material. We consider both models in their quasistatic, rate-independent formulation with linearised geometry. The main result of the thesis is, that the differences of the physical obervables (the stresses, strains and displacements) can be expressed as composition of some linear operators and play operators with respect to the exterior forces. Explicit homotopies between both solutions are presented. The main analytical devices are Lipschitz estimates for the stop and the play operator. We present some generalisations of the standard estimates. They allow different input functions, different initial memories and different scalar products. Thereby, the underlying time involving function spaces are the Sobolov spaces of first order with arbitrary integrability exponent between one and infinity. The main results can easily be generalised for the class of continuous functions with bounded total variation. In the practical part of this work, a method to correct the elastic stress tensor over a long time interval at some chosen points of the body is presented and analysed. In contrast to widespread uniaxial corrections (Neuber or ESED), our method takes multiaxiality phenomena like cyclic hardening/softening, ratchetting and non-masing behaviour into account using Jiang's model of elastoplasticity. It can be easily adapted to other constitutive elastoplastic material laws. The theory for our correction model is developped for linear kinematic hardening material, for which error estimated are derived. Our numerical algorithm is very fast and designed for the case that the elastic stress is piecewise linear. The results for the stresses can be significantly improved with Seeger's empirical strain constraint. For the improved model, a simple predictor-correcor algorithm for smooth input loading is established.
The main aim of this work was to obtain an approximate solution of the seismic traveltime tomography problems with the help of splines based on reproducing kernel Sobolev spaces. In order to be able to apply the spline approximation concept to surface wave as well as to body wave tomography problems, the spherical spline approximation concept was extended for the case where the domain of the function to be approximated is an arbitrary compact set in R^n and a finite number of discontinuity points is allowed. We present applications of such spline method to seismic surface wave as well as body wave tomography, and discuss the theoretical and numerical aspects of such applications. Moreover, we run numerous numerical tests that justify the theoretical considerations.
Zwei zentrale Probleme der modernen Finanzmathematik sind die Portfolio-Optimierung und die Optionsbewertung. Während es bei der Portfolio-Optimierung darum geht, das Vermögen optimal auf verschiedene Anlagemöglichkeiten zu verteilen, versucht die Optionsbewertung faire Preise von derivativen Finanzinstrumenten zu bestimmen. In dieser Arbeit werden Fragestellungen aus beiden dieser Themenbereiche bearbeitet. Die Arbeit beginnt mit einem Kapitel über Grundlagen, in dem zum Beispiel das Portfolio-Problem von Merton dargestellt und die Black/Scholes-Formel zur Optionsbewertung hergeleitet wird. In Kapitel 2 wird das Portfolio-Problem von Morton und Pliska betrachtet, die in das Merton-Modell fixe Transaktionskosten eingeführt haben. Dabei muß der Investor bei jeder Transaktion einen fixen Anteil vom derzeitigen Vermögen als Kosten abführen. Es wird die asymptotische Approximation dieses Modells von Atkinson und Wilmott vorgestellt und die optimale Portfoliostrategie aus den Marktparametern hergeleitet. Danach werden die tatsächlichen Transaktionskosten abgeschätzt und ein User Guide zur praktischen Anwendung dieses Transaktionskostenmodells angegeben. Zum Schluß wird das Modell numerisch analysiert, indem unter anderem die erwartete Handelszeit und die Güte der Abschätzung der tatsächlichen Transaktionskosten berechnet werden. Ein Portfolio-Problem mit internationalen Märkten wird in Kapitel 3 vorgestellt. Dem Investor steht zusätzlich zu seinem Heimatland noch ein weiteres Land für seine Vermögensanlagen zur Verfügung. Dabei werden die Preisprozesse für die ausländischen Wertpapiere mit einem stochastischen Wechselkurs in die Heimatwährung umgerechnet. In einer statischen Analyse wird unter anderem berechnet, wieviel weniger Vermögen der Investor benötigt, um das gleiche erwartete Endvermögen zu erhalten wie in dem Fall, wenn ihm keine Auslandsanlagen zur Verfügung stehen. Kapitel 4 behandelt drei verschiedene Portfolio-Probleme mit Sprung-Diffusions-Prozessen. Nach der Herleitung eines Verifikationssatzes wird das Problem bei Anlagemöglichkeit in eine Aktie und in ein Geldmarktkonto jeweils für eine konstante und eine stochastische Zinsrate untersucht. Im ersten Fall wird eine implizite Darstellung für den optimalen Portfolioprozeß und eine Bedingung angegeben, unter der diese Darstellung eindeutig lösbar ist. Außerdem wird der optimale Portfolioprozeß für verschiedene Verteilungen für die Sprunghöhe untersucht. Im Falle einer stochastischen Zinsrate kann nur ein Kandidat für den optimalen Lösungsprozeß angeben werden. Dieser hat wieder eine implizite Darstellung. Das letzte Portfolio-Problem ist eine Abwandlung des Modells aus Kapitel 3. Wird dort der Wechselkurs durch eine geometrisch Brownsche Bewegung modelliert, ist er hier ein reiner Sprungprozeß. Es wird wieder der optimale Portfolioprozeß hergeleitet, wobei ein Anteil davon unter Umständen nur numerisch lösbar ist. Eine hinreichende Bedingung für die Lösbarkeit wird angegeben. In Kapitel 5 werden verschiedene Bewertungsansätze für Optionen auf Bondindizes präsentiert. Es wird eine Methode vorgestellt, mit der die Optionen anhand von Marktpreisen bewertet werden können. Für den Fall, daß es nicht genug Marktpreise gibt, wird ein Verfahren angegeben, um den Bondindex realitätsnah zu simulieren und künstliche Marktpreise zu erzeugen. Diese Preise können dann für eine Kalibrierung verwendet werden.
Diese Arbeit beschäftigt sich mit Methoden zur Klassifikation von Ovoiden in quadratischen Räumen. Die Anwendung der dazu entwickelten Algorithmen erfolgt hauptsächlich in achtdimensionalen Räumen speziell über den Körpern GF(7), GF(8) und GF(9). Zu verschiedenen, zumeist kleinen, zyklischen Gruppen werden hier die unter diesen Gruppen invarianten Ovoide bestimmt. Die bei dieser Suche auftretenden Ovoide sind alle bereits bekannt. Es ergeben sich jedoch Restriktionen an die Stabilisatoren gegebenenfalls existierender, unbekannter Ovoide.
In this thesis, the quasi-static Biot poroelasticity system in bounded multilayered domains in one and three dimensions is studied. In more detail, in the one-dimensional case, a finite volume discretization for the Biot system with discontinuous coefficients is derived. The discretization results in a difference scheme with harmonic averaging of the coefficients. Detailed theoretical analysis of the obtained discrete model is performed. Error estimates, which establish convergence rates for both primary as well as flux unknowns are derived. Besides, modified and more accurate discretizations, which can be applied when the interface position coincides with a grid node, are obtained. These discretizations yield second order convergence of the fluxes of the problem. Finally, the solver for the solution of the produced system of linear equations is developed and extensively tested. A number of numerical experiments, which confirm the theoretical considerations are performed. In the three-dimensional case, the finite volume discretization of the system involves construction of special interpolating polynomials in the dual volumes. These polynomials are derived so that they satisfy the same continuity conditions across the interface, as the original system of PDEs. This technique allows to obtain such a difference scheme, which provides accurate computation of the primary as well as of the flux unknowns, including the points adjacent to the interface. Numerical experiments, based on the obtained discretization, show second order convergence for auxiliary problems with known analytical solutions. A multigrid solver, which incorporates the features of the discrete model, is developed in order to solve efficiently the linear system, produced by the finite volume discretization of the three-dimensional problem. The crucial point is to derive problem-dependent restriction and prolongation operators. Such operators are a well-known remedy for the scalar PDEs with discontinuous coefficients. Here, these operators are derived for the system of PDEs, taking into account interdependence of different unknowns within the system. In the derivation, the interpolating polynomials from the finite volume discretization are employed again, linking thus the discretization and the solution processes. The developed multigrid solver is tested on several model problems. Numerical experiments show that, due to the proper problem-dependent intergrid transfer, the multigrid solver is robust with respect to the discontinuities of the coefficients of the system. In the end, the poroelasticity system with discontinuous coefficients is used to model a real problem. The Biot model, describing this problem, is treated numerically, i.e., discretized by the developed finite volume techniques and then solved by the constructed multigrid solver. Physical characteristics of the process, such as displacement of the skeleton, pressure of the fluid, components of the stress tensor, are calculated and then presented at certain cross-sections.
In the thesis the author presents a mathematical model which describes the behaviour of the acoustical pressure (sound), produced by a bass loudspeaker. The underlying physical propagation of sound is described by the non--linear isentropic Euler system in a Lagrangian description. This system is expanded via asymptotical analysis up to third order in the displacement of the membrane of the loudspeaker. The differential equations which describe the behaviour of the key note and the first order harmonic are compared to classical results. The boundary conditions, which are derived up to third order, are based on the principle that the small control volume sticks to the boundary and is allowed to move only along it. Using classical results of the theory of elliptic partial differential equations, the author shows that under appropriate conditions on the input data the appropriate mathematical problems admit, by the Fredholm alternative, unique solutions. Moreover, certain regularity results are shown. Further, a novel Wave Based Method is applied to solve appropriate mathematical problems. However, the known theory of the Wave Based Method, which can be found in the literature, so far, allowed to apply WBM only in the cases of convex domains. The author finds the criterion which allows to apply the WBM in the cases of non--convex domains. In the case of 2D problems we represent this criterion as a small proposition. With the aid of this proposition one is able to subdivide arbitrary 2D domains such that the number of subdomains is minimal, WBM may be applied in each subdomain and the geometry is not altered, e.g. via polygonal approximation. Further, the same principles are used in the case of 3D problem. However, the formulation of a similar proposition in cases of 3D problems has still to be done. Next, we show a simple procedure to solve an inhomogeneous Helmholtz equation using WBM. This procedure, however, is rather computationally expensive and can probably be improved. Several examples are also presented. We present the possibility to apply the Wave Based Technique to solve steady--state acoustic problems in the case of an unbounded 3D domain. The main principle of the classical WBM is extended to the case of an external domain. Two numerical examples are also presented. In order to apply the WBM to our problems we subdivide the computational domain into three subdomains. Therefore, on the interfaces certain coupling conditions are defined. The description of the optimization procedure, based on the principles of the shape gradient method and level set method, and the results of the optimization finalize the thesis.