Global ETD Search

1	Monotone method for nonlocal systems of first order Liu, Weian January 2005 (has links) In this paper, the monotone method is extended to the initial-boundary value problems of nonlocal PDE system of first order, both quasi-monotone and non-monotone. A comparison principle is established, and a monotone scheme is given. System of nonlocal PDE of first order comparison principle monotone method Mathematics
2	Asymptotic Behaviour of Capillary Problems governed by Disjoining Pressure Potentials Thomys, Oliver 12 April 2010 (has links) (PDF) The ascent of liquids with low dielectric constant on straight cylinders are obtained. Mathematik Capillary problem disjoining pressure potential asymptotic solutions comparison principle porous materials capillary tube ddc:510
3	On the Aubry-Mather theory for partial differential equations and the stability of stochastically forced ordinary differential equations Blass, Timothy James 01 June 2011 (has links) This dissertation is organized into four chapters: an introduction followed by three chapters, each based on one of three separate papers. In Chapter 2 we consider gradient descent equations for energy functionals of the type [mathematical equation] where A is a second-order uniformly elliptic operator with smooth coefficients. We consider the gradient descent equation for S, where the gradient is an element of the Sobolev space H[superscipt beta], [beta is an element of](0, 1), with a metric that depends on A and a positive number [gamma] > sup \|V₂₂\|. The main result of Chapter 2 is a weak comparison principle for such a gradient flow. We extend our methods to the case where A is a fractional power of an elliptic operator, and we provide an application to the Aubry-Mather theory for partial differential equations and pseudo-differential equations by finding plane-like minimizers of the energy functional. In Chapter 3 we investigate the differentiability of the minimal average energy associated to the functionals [mathematical equation] using numerical and perturbation methods. We use the Sobolev gradient descent method as a numerical tool to compute solutions of the Euler-Lagrange equations with some periodicity conditions; this is the cell problem in homogenization. We use these solutions to determine the minimal average energy as a function of the slope. We also obtain a representation of the solutions to the Euler-Lagrange equations as a Lindstedt series in the perturbation parameter [epsilon], and use this to confirm our numerical results. Additionally, we prove convergence of the Lindstedt series. In Chapter 4 we present a method for determining the stability of a class of stochastically forced ordinary differential equations, where the forcing term can be obtained by passing white noise through a filter of arbitrarily high degree. We use the Fokker-Planck equation to write a partial differential equation for the second moments, which we turn into an eigenvalue problem for a second-order differential operator. We develop ladder operators to determine analytic expressions for the eigenvalues and eigenfunctions of this differential operator, and thus determine the stability. / text Partial differential equations Aubry-Mather theory Comparison principle Lindstedt series Cell problem Stability
4	Optimal liquidation problems and HJB equations with singular terminal condition Graewe, Paulwin 05 May 2017 (has links) Gegenstand dieser Arbeit sind stochastische Kontrollprobleme im Kontext von optimaler Portfolioliquidierung in illiquiden Märkten. Dabei betrachten wir sowohl Markovsche sowie nicht-Markovsche Preiseinflussfunktionale und berücksichtigen den Handel sowohl im Primärmarkt als auch in Dark Pools. Besonderes Merkmal von Liquidierungsproblemen ist die durch die Liquidierungsbedingung induzierte singuläre Endbedingung an die Wertfunktion. Der Standardansatz für linear-quadratische Probleme reduziert die HJB-Gleichungen für die Wertfunktion - je nach Zustandsdynamik - auf (ein System) partielle(r) Differentialgleichungen, stochastische(r) Rückwärtsdifferentialgleichungen beziehungsweise stochastische(r) partielle(r) Rückwärtsdifferentialgleichungen (BSPDE). Wir beweisen neue Existenz-, Eindeutigkeits- und Regularitätsresultate für diese zur Lösung optimaler Liquidierungsprobleme verwendeten Differentialgleichungen mit singulärer Endbedingung, verifizieren die Charakterisierung der zugehörigen Wertfunktion anhand dieser Differentalgleichungen und geben die optimale Handelsstrategie in Feedbackform. Für Markovsche und nicht-Markovsche Preiseinflussmodelle wird eine neuartiger Ansatz basierend auf der genauen singulären Asymptotik der Wertfunktion vorgelegt. Für vollständig Markovsche Liquidierungsprobleme erlaubt uns dieser, die Existenz glatter Lösungen der singulären partiellen Differentialgleichungen zu zeigen. Für eine Klasse von Problemen mit Markovscher/nicht-Markovscher Struktur charakterisieren wir die HJB-Gleichungen durch eine singuläre BSPDE, für die wir die Existenz und Eindeutigkeit einer Lösung über einen Bestrafungsansatz herleiten. / We study stochastic optimal control problems arising in the framework of optimal portfolio liquidation under limited liquidity. Our framework is flexible enough to allow for Markovian and non-Markovian impact functions and for simultaneous trading in primary venues and dark pools. The key characteristic of portfolio liquidation models is the singular terminal condition of the value function that is induced by the liquidation constraint. For linear-quadratic models, the standard ansatz reduces the HJB equation for the value to a (system of) partial differential equation(s), backward stochastic differential equation(s) or backward stochastic partial differential equation(s) with singular terminal condition, depending on the choice of the cost coefficients. We establish novel existence, uniqueness and regularity results for (BS)PDEs with singular terminal conditions arising in models of optimal portfolio liquidation, prove that the respective value functions can indeed be described by a (BS)PDE, and give the optimal trading strategies in feedback form. For Markovian and non-Markovian impact models we establish a novel approach based on the precise asymptotics of the value function at the terminal time. For purely Markovian liquidation problems this allows us to establish the existence smooth solutions to singular PDEs. For a class mixed Markovian/non-Markovian models we characterize the HJB equation in terms of a singular BSPDE for which we establish existence and uniqueness of a solution using a stochastic penalization method. HJB optimale Liquidierung singuläre Endbedingung Vergleichsprinzip HJB optimal liquidation singular terminal condition comparison principle 510 Mathematik 27 Mathematik SK 880 ddc:510
5	Qualitative Properties of Stochastic Hybrid Systems and Applications Alwan, Mohamad January 2011 (has links) Hybrid systems with or without stochastic noise and with or without time delay are addressed and the qualitative properties of these systems are investigated. The main contribution of this thesis is distributed in three parts. In Part I, nonlinear stochastic impulsive systems with time delay (SISD) with variable impulses are formulated and some of the fundamental properties of the systems, such as existence of local and global solution, uniqueness, and forward continuation of the solution are established. After that, stability and input-to-state stability (ISS) properties of SISD with fixed impulses are developed, where Razumikhin methodology is used. These results are then carried over to discussed the same qualitative properties of large scale SISD. Applications to automated control systems and control systems with faulty actuators are used to justify the proposed approaches. Part II is devoted to address ISS of stochastic ordinary and delay switched systems. To achieve a variety stability-like results, multiple Lyapunov technique as a tool is applied. Moreover, to organize the switching among the system modes, a newly developed initial-state-dependent dwell-time switching law and Markovian switching are separately employed. Part III deals with systems of differential equations with piecewise constant arguments with and without random noise. These systems are viewed as a special type of hybrid systems. Existence and uniqueness results are first obtained. Then, comparison principles are established which are later applied to develop some stability results of the systems. Impulsive systems Switched systems Stochastic differential equations Time delay Asymptotic stability Exponential stability Lyapunov stability Comparison principle Razumikhin technique Existence-uniqueness of solutions Applied Mathematics
6	Qualitative Properties of Stochastic Hybrid Systems and Applications Alwan, Mohamad January 2011 (has links) Hybrid systems with or without stochastic noise and with or without time delay are addressed and the qualitative properties of these systems are investigated. The main contribution of this thesis is distributed in three parts. In Part I, nonlinear stochastic impulsive systems with time delay (SISD) with variable impulses are formulated and some of the fundamental properties of the systems, such as existence of local and global solution, uniqueness, and forward continuation of the solution are established. After that, stability and input-to-state stability (ISS) properties of SISD with fixed impulses are developed, where Razumikhin methodology is used. These results are then carried over to discussed the same qualitative properties of large scale SISD. Applications to automated control systems and control systems with faulty actuators are used to justify the proposed approaches. Part II is devoted to address ISS of stochastic ordinary and delay switched systems. To achieve a variety stability-like results, multiple Lyapunov technique as a tool is applied. Moreover, to organize the switching among the system modes, a newly developed initial-state-dependent dwell-time switching law and Markovian switching are separately employed. Part III deals with systems of differential equations with piecewise constant arguments with and without random noise. These systems are viewed as a special type of hybrid systems. Existence and uniqueness results are first obtained. Then, comparison principles are established which are later applied to develop some stability results of the systems. Impulsive systems Switched systems Stochastic differential equations Time delay Asymptotic stability Exponential stability Lyapunov stability Comparison principle Razumikhin technique Existence-uniqueness of solutions Applied Mathematics
7	Analyse de quelques problèmes elliptiques et paraboliques semi-linéaires / Analysis of some semi-linear elliptic and parabolic problems Wang, Chao 21 November 2012 (has links) Cette thèse est divisée en deux parties. Dans la première partie, on considère le système de réaction-diffusion-advection (Pε), qui est un modèle d'haptotaxie, mécanisme lié à la dissémination de tumeurs cancéreuses. Le résultat principal concerne la convergence de la solution du systeme (Pε) vers la solution d'un problème à frontière libre (P0) qui est bien défini. Dans la seconde partie, on considère une classe générale d'équations elliptiques du type Hénon:−∆u = \|x\|^{α} f(u) dans Ω ⊂ R^N avec α > -2. On examine deux cas classiques : f(u) = e^u, \|u\|^{p−1} u et deux autres cas : f(u) = u^{p}_{+} puis f(u) nonlinéarité générale. En étudiant les solutions stables en dehors d'un ensemble compact (en particulier, solutions stables et solutions avec indice de Morse fini) avec différentes méthodes, on obtient des résultats de classification. / This thesis is divided into two main parts. In the first part, we consider an example of reaction-diffusion-taxis system (Pε), which is a haptotaxis model - a mechanism about the spread of cancer cells. The main result concerns the convergence of the solution of System (Pε) to the solution of a free boundary problem (P0), where system (P0) is well-posed. In the second part, we consider a general class of Hénon type elliptic equations : −∆u = \|x\|^{α} f(u) in Ω ⊂ R^Nwith α > −2. We investigate two classical cases f(u) = e^u, \|u\|^{p−1} u and two others cases f(u) = u^{p}_{+} , f(u) is a general function. By studying the solutions which are stable outside a compact set (in particular, stable solutions and finite Morse index solutions) with different methods, we establish some classification results. Problème à frontière libre Principe de comparaison Équation du type Hénon Solution avec indice de Morse fini Théorème de Liouville Reaction-diffusion-advection system Free boundary problem Comparison principle Hénon equation Finite Morse index solution Liouvllle-type Theorem
8	Le problème de Dirichlet pour les équations de Monge-Ampère complexes / The dirichlet problem for complex Monge-Ampère equations Charabati, Mohamad 14 January 2016 (has links) Cette thèse est consacrée à l'étude de la régularité des solutions des équations de Monge-Ampère complexes ainsi que des équations hessiennes complexes dans un domaine borné de Cn. Dans le premier chapitre, on donne des rappels sur la théorie du pluripotentiel. Dans le deuxième chapitre, on étudie le module de continuité des solutions du problème de Dirichlet pour les équations de Monge-Ampère lorsque le second membre est une mesure à densité continue par rapport à la mesure de Lebesgue dans un domaine strictement hyperconvexe lipschitzien. Dans le troisième chapitre, on prouve la continuité hölderienne des solutions de ce problème pour certaines mesures générales. Dans le quatrième chapitre, on considère le problème de Dirichlet pour les équations hessiennes complexes plus générales où le second membre dépend de la fonction inconnue. On donne une estimation précise du module de continuité de la solution lorsque la densité est continue. De plus, si la densité est dans Lp , on démontre que la solution est Hölder-continue jusqu'au bord. / In this thesis we study the regularity of solutions to the Dirichlet problem for complex Monge-Ampère equations and also for complex Hessian equations in a bounded domain of Cn. In the first chapter, we give basic facts in pluripotential theory. In the second chapter, we study the modulus of continuity of solutions to the Dirichlet problem for complex Monge-Ampère equations when the right hand side is a measure with continuous density with respect to the Lebesgue measure in a bounded strongly hyperconvex Lipschitz domain. In the third chapter, we prove the Hölder continuity of solutions to this problem for some general measures. In the fourth chapter, we consider the Dirichlet problem for complex Hessian equations when the right hand side depends on the unknown function. We give a sharp estimate of the modulus of continuity of the solution as the density is continuous. Moreover, for the case of Lp-density we demonstrate that the solution is Hölder continuous up to the boundary. Problème de Dirichlet Opérateur de Monge-Ampère Mesure de Hausdorff-Riesz Fonction m-sousharmonique Opérateur hessien Capacité Module de continuité Principe de comparaison Théorème de stabilité Domaine strictement m-pseudoconvexe Dirichlet problem Monge-Ampère operator Hausdorff-Riesz measure M-subharmonic function Hessian operator Capacity Modulus of continuity Comparison principle Stability theorem Strongly hyperconvex Lipschitz domain Strongly m-pseudoconvex domain

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