Global ETD Search

51	New results on the degree of ill-posedness for integration operators with weights Hofmann, Bernd, von Wolfersdorf, Lothar 16 May 2008 (has links) We extend our results on the degree of ill-posedness for linear integration opera- tors A with weights mapping in the Hilbert space L^2(0,1), which were published in the journal 'Inverse Problems' in 2005 ([5]). Now we can prove that the degree one also holds for a family of exponential weight functions. In this context, we empha- size that for integration operators with outer weights the use of the operator AA^* is more appropriate for the analysis of eigenvalue problems and the corresponding asymptotics of singular values than the former use of A^*A. info:eu-repo/classification/ddc/510 ddc:510 Eigenwertproblem Inverses Problem Bessel function Compact integral operator Degree of ill-posedness Singular value asymptotics
52	H^infinity well-posedness for degenerate p-evolution operators Herrmann, Torsten 10 September 2012 (has links) Untersucht wird das Cauchy Problem für degenerierte $p$-Evolutionsgleichungen. Dabei kann für Gleichungen höherer Ordnung in $D_t$, die nur von der Zeit abhängen, gezeigt werden, dass das Problem $H^\\infinity$ korrekt ist. Dafür werden gewisse Bedingungen an die Koeffizienten und deren erste Ableitungen gestellt. $H^\\infinity$ korrekt bedeutet dabei, dass die Anfangsdaten $u_0\\in H^s$, $u_1$ in einem dazugehörigen Sobolevraum und die Lösung bezüglich $x$ in $H^{s-s_0}$ liegen. Eine Notwendigkeit für die Bedingungen kann allerdings nicht gezeigt werden. Auch ist offen, ob der Regularitätsverlust wirklich eintritt. Später wird der Beweis erweitert um das Ergebniss für Koeffizienten zu zeigen, die in gewisser Weise auch vom Ort abhängen können. Im zweiten Teil der Dissertation geht es um Korrektheit für degenerierte $p$-Evolutionsgleichungen mit zeitabhängigen Koeffizienten und zweiter Ordnung in $D_t$. Gefordert werden Bedingungen an die Koeffizienten und die ersten beiden Ableitungen bezüglich der Zeit. Damit wird gezeigt, dass diese in Skalen von Sobolevräumen korrekt gestellt sind. Abschließend wird die Schärfe der Bedingungen und das tatsächliche Auftreten des Regularitätsverlustes in der Lösung bewiesen. info:eu-repo/classification/ddc/510 ddc:510 Cauchy-Anfangswertproblem
53	Well-posedness and mathematical analysis of linear evolution equations with a new parameter Monyayi, Victor Tebogo 01 1900 (has links) Abstract in English / In this dissertation we apply linear evolution equations to the Newtonian derivative, Caputo time fractional derivative and $-time fractional derivative. It is notable that the most utilized fractional order derivatives for modelling true life challenges are Riemann- Liouville and Caputo fractional derivatives, however these fractional derivatives have the same weakness of not satisfying the chain rule, which is one of the most important elements of the match asymptotic method [2, 3, 16]. Furthermore the classical bounded perturbation theorem associated with Riemann-Liouville and Caputo fractional derivatives has con rmed not to be in general truthful for these models, particularly for solution operators of evolution systems of a derivative with fractional parameter ' that is less than one (0 < ' < 1) [29]. To solve this problem, we introduce the derivative with new parameter, which is de ned as a local derivative but has a fractional order called $-derivative and apply this derivative to linear evolution equation and to support what we have done in the theory, we utilize application to population dynamics and we provide the numerical simulations for particular cases. / Mathematical Sciences / M.Sc. (Applied Mathematics) 519 Mittag-Leffler functions Linear evolution equations Bounded linear operators Caputo time fractional derivative Fractional derivative Perturbation Two-parameter solution operators Well-posedness Population model Applied mathematics
54	Retarded functional differential equations with general delay structure / 一般の遅れ構造をもつ遅れ型関数微分方程式 Nishiguchi, Junya 23 March 2017 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第20156号 / 理博第4241号 / 新制\|\|理\|\|1610(附属図書館) / 京都大学大学院理学研究科数学・数理解析専攻 / (主査)教授國府寛司, 教授上田哲生, 教授堤誉志雄 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DFAM time- and state-dependent delays well-posedness of initial value problem continuity of semi-flows and processes 400
55	Strichartz estimates and the nonlinear Schrödinger-type equations / Estimations de Strichartz et les équations non-linéaires de type Schrödinger sur les variétés Dinh, Van Duong 10 July 2018 (has links) Cette thèse est consacrée à l'étude des aspects linéaires et non-linéaires des équations de type Schrödinger [ i partial_t u + \|nabla\|^sigma u = F, quad \|nabla\| = sqrt {-Delta}, quad sigma in (0, infty).] Quand $sigma = 2$, il s'agit de l'équation de Schrödinger bien connue dans de nombreux contextes physiques tels que la mécanique quantique, l'optique non-linéaire, la théorie des champs quantiques et la théorie de Hartree-Fock. Quand $sigma in (0,2) backslash {1}$, c'est l'équation Schrödinger fractionnaire, qui a été découverte par Laskin (voir par exemple cite{Laskin2000} et cite{Laskin2002}) en lien avec l'extension de l'intégrale de Feynman, des chemins quantiques de type brownien à ceux de Lévy. Cette équation apparaît également dans des modèles de vagues (voir par exemple cite{IonescuPusateri} et cite{Nguyen}). Quand $sigma = 1$, c'est l'équation des demi-ondes qui apparaît dans des modèles de vagues (voir cite{IonescuPusateri}) et dans l'effondrement gravitationnel (voir cite{ElgartSchlein}, cite{FrohlichLenzmann}). Quand $sigma = 4$, c'est l'équation Schrödinger du quatrième ordre ou biharmonique introduite par Karpman cite{Karpman} et par Karpman-Shagalov cite{KarpmanShagalov} pour prendre en compte le rôle de la dispersion du quatrième ordre dans la propagation d'un faisceau laser intense dans un milieu massif avec non-linéarité de Kerr. Cette thèse est divisée en deux parties. La première partie étudie les estimations de Strichartz pour des équations de type Schrödinger sur des variétés comprenant l'espace plat euclidien, les variétés compactes sans bord et les variétés asymptotiquement euclidiennes. Ces estimations de Strichartz sont utiles pour l'étude de l'équations dispersives non-linéaire à régularité basse. La seconde partie concerne l'étude des aspects non-linéaires tels que les caractères localement puis globalement bien posés sous l'espace d'énergie, ainsi que l'explosion de solutions peu régulières pour des équations non-linéaires de type Schrödinger. [...] / This dissertation is devoted to the study of linear and nonlinear aspects of the Schrödinger-type equations [ i partial_t u + \|nabla\|^sigma u = F, quad \|nabla\| = sqrt {-Delta}, quad sigma in (0, infty).] When $sigma = 2$, it is the well-known Schrödinger equation arising in many physical contexts such as quantum mechanics, nonlinear optics, quantum field theory and Hartree-Fock theory. When $sigma in (0,2) backslash {1}$, it is the fractional Schrödinger equation, which was discovered by Laskin (see e.g. cite{Laskin2000} and cite{Laskin2002}) owing to the extension of the Feynman path integral, from the Brownian-like to Lévy-like quantum mechanical paths. This equation also appears in the water waves model (see e.g. cite{IonescuPusateri} and cite{Nguyen}). When $sigma = 1$, it is the half-wave equation which arises in water waves model (see cite{IonescuPusateri}) and in gravitational collapse (see cite{ElgartSchlein}, cite{FrohlichLenzmann}). When $sigma =4$, it is the fourth-order or biharmonic Schrödinger equation introduced by Karpman cite {Karpman} and by Karpman-Shagalov cite{KarpmanShagalov} taking into account the role of small fourth-order dispersion term in the propagation of intense laser beam in a bulk medium with Kerr nonlinearity. This thesis is divided into two parts. The first part studies Strichartz estimates for Schrödinger-type equations on manifolds including the flat Euclidean space, compact manifolds without boundary and asymptotically Euclidean manifolds. These Strichartz estimates are known to be useful in the study of nonlinear dispersive equation at low regularity. The second part concerns the study of nonlinear aspects such as local well-posedness, global well-posedness below the energy space and blowup of rough solutions for nonlinear Schrödinger-type equations.[...] Estimations de Strichartz Problème localement bien posé Problème globalement bien posé Explosion Méthode-I Estimations bilinéaires de Strichartz Inégalités d'interaction de Morawetz Variétés compactes sans bord Variétés asymptotiquement euclidiennes Nonlinear Schrödinger-type equations Strichartz estimates Local well-posedness Global well-posedness Blowup I-method Bilinear Strichartz estimates Interaction Morawetz inequalities Compact manifolds without boundary Asymptotically Euclidean manifolds
56	On Ill-Posedness and Local Ill-Posedness of Operator Equations in Hilbert Spaces: On Ill-Posedness and Local Ill-Posedness of OperatorEquations in Hilbert Spaces Hofmann, B. 30 October 1998 (has links) In this paper, we study ill-posedness concepts of nonlinear and linear inverse problems in a Hilbert space setting. We define local ill-posedness of a nonlinear operator equation $F(x) = y_0$ in a solution point $x_0$ and the interplay between the nonlinear problem and its linearization using the Frechet derivative $F\acent(x_0)$ . To find an appropriate ill-posedness concept for the linarized equation we define intrinsic ill-posedness for linear operator equations $Ax = y$ and compare this approach with the ill-posedness definitions due to Hadamard and Nashed. info:eu-repo/classification/ddc/510 ddc:510 Nonlinear inverse problems oerator equations ill-posedness stability estimates local ill-posedness Frechet derivative linearized problem compact operators integral equations parameter identification MSC 65J20 MSC 47H15 MSC 65J10 MSC 65J15 MSC 65R30 MSC 45G10
57	Stochastic modeling and methods for portfolio management in cointegrated markets Angoshtari, Bahman January 2014 (has links) In this thesis we study the utility maximization problem for assets whose prices are cointegrated, which arises from the investment practice of convergence trading and its special forms, pairs trading and spread trading. The major theme in the first two chapters of the thesis, is to investigate the assumption of market-neutrality of the optimal convergence trading strategies, which is a ubiquitous assumption taken by practitioners and academics alike. This assumption lacks a theoretical justification and, to the best of our knowledge, the only relevant study is Liu and Timmermann (2013) which implies that the optimal convergence strategies are, in general, not market-neutral. We start by considering a minimalistic pairs-trading scenario with two cointegrated stocks and solve the Merton investment problem with power and logarithmic utilities. We pay special attention to when/if the stochastic control problem is well-posed, which is overlooked in the study done by Liu and Timmermann (2013). In particular, we show that the problem is ill-posed if and only if the agent’s risk-aversion is less than a constant which is an explicit function of the market parameters. This condition, in turn, yields the necessary and sufficient condition for well-posedness of the Merton problem for all possible values of agent’s risk-aversion. The resulting well-posedness condition is surprisingly strict and, in particular, is equivalent to assuming the optimal investment strategy in the stocks to be market-neutral. Furthermore, it is shown that the well-posedness condition is equivalent to applying Novikov’s condition to the market-price of risk, which is a ubiquitous sufficient condition for imposing absence of arbitrage. To the best of our knowledge, these are the only theoretical results for supporting the assumption of market-neutrality of convergence trading strategies. We then generalise the results to the more realistic setting of multiple cointegrated assets, assuming risk factors that effects the asset returns, and general utility functions for investor’s preference. In the process of generalising the bivariate results, we also obtained some well-posedness conditions for matrix Riccati differential equations which are, to the best of our knowledge, new. In the last chapter, we set up and justify a Merton problem that is related to spread-trading with two futures assets and assuming proportional transaction costs. The model possesses three characteristics whose combination makes it different from the existing literature on proportional transaction costs: 1) finite time horizon, 2) Multiple risky assets 3) stochastic opportunity set. We introduce the HJB equation and provide rigorous arguments showing that the corresponding value function is the viscosity solution of the HJB equation. We end the chapter by devising a numerical scheme, based on the penalty method of Forsyth and Vetzal (2002), to approximate the viscosity solution of the HJB equation. 332.63
58	Équations différentielles stochastiques : résolubilité forte d'équations singulières dégénérées ; analyse numérique de systèmes progressifs-rétrogrades de McKean-Vlasov / Stochastic differential equations : strong well-posedness of singular and degenerate equations; numerical analysis of decoupled forward backward systems of McKean-Vlasov type Chaudru de Raynal, Paul Éric 06 December 2013 (has links) Cette thèse traite de deux sujets: la résolubilité forte d'équations différentielles stochastiques à dérive hölderienne et bruit hypoelliptique et la simulation de processus progressifs-rétrogrades découplés de McKean-Vlasov. Dans le premier cas, on montre qu'un système hypoelliptique, composé d'une composante diffusive et d'une composante totalement dégénérée, est fortement résoluble lorsque l'exposant de la régularité Hölder de la dérive par rapport à la composante dégénérée est strictement supérieur à 2/3. Ce travail étend au cadre dégénéré les travaux antérieurs de Zvonkin (1974), Veretennikov (1980) et Krylov et Röckner (2005). L'apparition d'un seuil critique pour l'exposant peut-être vue comme le prix à payer pour la dégénérescence. La preuve repose sur des résultats de régularité de la solution de l'EDP associée, qui est dégénérée, et est basée sur une méthode parametrix. Dans le second cas, on propose un algorithme basé sur les méthodes de cubature pour la simulation de processus progessifs-rétrogrades découplés de McKean-Vlasov apparaissant dans des problèmes de contrôle dans un environnement de type champ moyen. Cet algorithme se divise en deux parties. Une première étape de construction d'un arbre de particules, à dynamique déterministe, approchant la loi de la composante progressive. Cet arbre peut être paramétré de manière à obtenir n'importe quel ordre d'approximation (en terme de pas de discrétisation de l'intervalle). Une seconde étape, conditionnelle à l'arbre, permettant l'approximation de la composante rétrograde. Deux schémas explicites sont proposés permettant un ordre d'approximation de 1 et 2. / This thesis deals with two subjects: the strong well-posedness of stochastic differential equations with Hölder drift and hypoelliptic noise and the simulation of decoupled forward backward stochastic differential equations of McKean-Vlasov type. In the first work, we study a class of degenerate system with hypoelliptic noise. We prove that strong well-posedness holds for this system when the drift is only H\"{o}lder, with Hölder exponent larger than the critical value 2/3. This work extends to the degenerate setting the earlier results obtained by Zvonkin (1974), Veretennikov (1980) and Krylov and Röckner (2005). The existence of a threshold for the Hölder exponent in the degenerate case may be understood as the price to pay to balance the degeneracy of the noise. Our proof relies on regularization properties of the associated PDE, which is degenerate in the current framework and is based on a parametrix method. In the second work, we propose a new algorithm to approach weakly the solution of a McKean-Vlasov stochastic differential equation. Based on the cubature method, the algorithm is deterministic differing from the usual methods based on interacting particles. It can be parametrized in order to obtain a given order of convergence. Then, we construct implementable algorithms to solve decoupled forward backward stochastic differential equations of McKean-Vlasov type, which appear in some stochastic control problems in a mean field environment. We give two algorithms and show that they have convergence of orders one and two under appropriate regularity conditions. Analyse stochastique EDS EDP Résolubilité forte Parametrix Dégénérescence EDSPR Schéma numérique Algorithme McKean-Vlasov Cubature Champ moyen Stochastic analysis SDE PDE Strong well-posedness Parametrix Degeneracy FBSDE Numerical scheme Algorithm McKean-Vlasov Cubature Mean field
59	Mathematical analysis of generalized linear evolution equations with the non-singular kernel derivative Toudjeu, Ignace Tchangou 02 1900 (has links) Linear Evolution Equations (LEE) have been studied extensively over many years. Their extension in the field of fractional calculus have been defined by Dαu(x, t) = Au(x, t), where α is the fractional order and Dα is a generalized differential operator. Two types of generalized differential operators were applied to the LEE in the state-of-the-art, producing the Riemann-Liouville and the Caputo time fractional evolution equations. However the extension of the new Caputo-Fabrizio derivative (CFFD) to these equations has not been developed. This work investigates existing fractional derivative evolution equations and analyze the generalized linear evolution equations with non-singular ker- nel derivative. The well-posedness of the extended CFFD linear evolution equation is demonstrated by proving the existence of a solution, the uniqueness of the existing solu- tion, and finally the continuous dependence of the behavior of the solution on the data and parameters. Extended evolution equations with CFFD are applied to kinetics, heat diffusion and dispersion of shallow water waves using MATLAB simulation software for validation purpose. / Mathematical Science / M Sc. (Applied Mathematics) Mathematical analysis Evolution equation Caputo-Fabrizio derivative Diffusion equation Fractional calculus Non-singular kernel derivative Fractional derivative Solution operators Semigroup Well-posedness 519.8 Applied Mathematics Mathematical analysis Evolution equations Fractional calculus Heat equation
60	Exponential Stability and Initial Value Problems for Evolutionary Equations Trostorff, Sascha 31 May 2018 (has links) (PDF) The thesis deals with so-called evolutionary equations, a class of abstract linear operator equations, which cover a huge class of partial differential equation with and without memory. We provide a unified Hilbert space framework for the well-posedness of such equations. Moreover, we inspect the exponential stability of those problems and construct spaces of admissible inital values and pre-histories, on which a strongly continuous semigroup could be associated with the given problem. The theoretical results are illustrated by several examples. Partielle Differentialgleichungen Wohlgestelltheit Exponentielle Stabilität Anfangswerte und Vorgeschichten Delay Gleichungen Integro-Differentialgleichungen partial differential equations well-posedness exponential stability initial values and pre-histories delay equations integro-differential equations ddc:510 rvk:SK 540

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