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Operadores integrais gerados por núcleos em multi-escalas / Integral operators generated by multi-scale kernelsThaís Jordão 18 February 2009 (has links)
Neste trabalho, inicialmente, apresentamos uma classe de núcleos positivos definidos, os núcleos de Mercer. As funções nesta classe se enquadram na representação de núcleos dada pelo conhecido Teorema de Mercer. Exploramos algumas de suas propriedades convenientes para o contexto do trabalho e construímos seu espaço nativo. Em seguida, tratamos dos núcleos em multiescalas, um caso particular dos núcleos de Mercer. Após estabelecer algumas propriedades interessantes destes núcleos, analisamos o operador integral gerado por um núcleo em multiescalas, no contexto \'L POT.2\' , considerando os seguintes aspectos: limitação, compacidade e positividade do operador, especificidades da imagem do operador e informações sobre seus autovalores e autofunções. Analisamos ainda algumas propriedades do operador integral envolvendo o espaço nativo do núcleo em multiescalas / We study Mercer like kernels, a very special class of positive definite kernels possessing the description given by many results labeled as Mercer\'s Theorem. We explore some of their properties which are needed in the development of this work and construct their native space. In the second half of the work, we consider Mercer kernels defined by a multi-scale procedure. After establishing some of its properties, we analyze integral operators generated by multi-scale kernels, in the \'L POT.2\' context, centering on the following aspects: boundedness, compactness, positiveness, eigenvalues and eigen- functions. We also consider additional properties of the operator, mainly those involving the native space of the multi-scale kernel
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O problema de Riemann-Hilbert para campos vetoriais complexos / The Riemann-Hilbert problem for complex vector fieldsCamilo Campana 24 April 2017 (has links)
Este trabalho trata de problemas de contorno definidos no plano. O problema central desta tese é chamado Problema de Riemann-Hilbert, o qual pode ser descrito como segue. Seja L um campo vetorial complexo não singular definido em uma vizinhança do fecho de um aberto simplesmente conexo do plano com fronteira suave. O Problema de Riemann-Hilbert para o campo L consiste em obter uma solução para a equação Lu = F(x, y, u) no aberto em estudo, sendo dada uma função F mensurável. Pede-se também que a solução tenha extensão contínua até a fronteira e que satisfaça lá uma condição adicional; trabalha-se aqui no contexto das funções Hölder contínuas. Foram obtidos resultados para o problema acima no caso em que L pertence a uma classe de campos hipocomplexos. O caso clássico conhecido é quando o campo vetorial é o operador de Cauchy-Riemann, ou, mais geralmente, quando é um campo elítico. / This work deals with boundary problems in the plane. The central problem in this thesis is the so-called Riemann-Hilbert problem, which may be described as follows. Let L be a non-singular complex vector field defined on a neighborhood of the closure of a simply connected open subset of the plane having smooth boundary. The Riemann-Hilbert problem for the vector field L consists in finding a solution to the equation Lu = F(x, y, u) on the open set under study, where the given function F is measurable. It is also required that the solution have a continuous extension up to the boundary and satisfy an additional condition there. Results were obtained for the above problem when L belongs to a class of hypocomplex vector fields. The well-known classical case is the one in which the vector field under study is the Cauchy-Riemann operator, or more generally when it is an elliptic vector field.
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Optimalita prostorů funkcí pro klasické integrální operátory / Optimality of function spaces for classical integral operatorsMihula, Zdeněk January 2017 (has links)
We investigate optimal partnership of rearrangement-invariant Banach func- tion spaces for the Hilbert transform and the Riesz potential. We establish sharp theorems which characterize optimal action of these operators on such spaces. These results enable us to construct optimal domain (i.e. the largest) and op- timal range (i.e. the smallest) partner spaces when the other space is given. We illustrate the obtained results by non-trivial examples involving Generalized Lorentz-Zygmund spaces with broken logarithmic functions. The method is pre- sented in such a way that it should be easily adaptable to other appropriate operators. 1
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The Weighted Space OdysseyKřepela, Martin January 2017 (has links)
The common topic of this thesis is boundedness of integral and supremal operators between weighted function spaces. The first type of results are characterizations of boundedness of a convolution-type operator between general weighted Lorentz spaces. Weighted Young-type convolution inequalities are obtained and an optimality property of involved domain spaces is proved. Additional provided information includes an overview of basic properties of some new function spaces appearing in the proven inequalities. In the next part, product-based bilinear and multilinear Hardy-type operators are investigated. It is characterized when a bilinear Hardy operator inequality holds either for all nonnegative or all nonnegative and nonincreasing functions on the real semiaxis. The proof technique is based on a reduction of the bilinear problems to linear ones to which known weighted inequalities are applicable. Further objects of study are iterated supremal and integral Hardy operators, a basic Hardy operator with a kernel and applications of these to more complicated weighted problems and embeddings of generalized Lorentz spaces. Several open problems related to missing cases of parameters are solved, thus completing the theory of the involved fundamental Hardy-type operators. / Operators acting on function spaces are classical subjects of study in functional analysis. This thesis contributes to the research on this topic, focusing particularly on integral and supremal operators and weighted function spaces. Proving boundedness conditions of a convolution-type operator between weighted Lorentz spaces is the first type of a problem investigated here. The results have a form of weighted Young-type convolution inequalities, addressing also optimality properties of involved domain spaces. In addition to that, the outcome includes an overview of basic properties of some new function spaces appearing in the proven inequalities. Product-based bilinear and multilinear Hardy-type operators are another matter of focus. It is characterized when a bilinear Hardy operator inequality holds either for all nonnegative or all nonnegative and nonincreasing functions on the real semiaxis. The proof technique is based on a reduction of the bilinear problems to linear ones to which known weighted inequalities are applicable. The last part of the presented work concerns iterated supremal and integral Hardy operators, a basic Hardy operator with a kernel and applications of these to more complicated weighted problems and embeddings of generalized Lorentz spaces. Several open problems related to missing cases of parameters are solved, completing the theory of the involved fundamental Hardy-type operators. / <p>Artikel 9 publicerad i avhandlingen som manuskript med samma titel.</p>
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A Study On Solutions Of Singular Integral EquationsGeorge, A J 07 1900 (has links) (PDF)
No description available.
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Asymptotic Analysis of Structured Determinants via the Riemann-Hilbert ApproachGharakhloo, Roozbeh 08 1900 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / In this work we use and develop Riemann-Hilbert techniques to study the asymptotic behavior of structured determinants. In chapter one we will review the main underlying
definitions and ideas which will be extensively used throughout the thesis. Chapter two is devoted to the asymptotic analysis of Hankel determinants with Laguerre-type and Jacobi-type potentials with Fisher-Hartwig singularities. In chapter three we will propose a Riemann-Hilbert problem for Toeplitz+Hankel determinants. We will then analyze this Riemann-Hilbert problem for a certain family of Toeplitz and Hankel symbols. In Chapter four we will study the asymptotics of a certain bordered-Toeplitz determinant which is related to the next-to-diagonal correlations of the anisotropic Ising model. The analysis is based upon relating the bordered-Toeplitz determinant to the solution of the Riemann-Hilbert problem associated to pure Toeplitz determinants. Finally in chapter ve we will study the emptiness formation probability in the XXZ-spin 1/2 Heisenberg chain, or equivalently, the asymptotic analysis of the associated Fredholm determinant.
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Best constants in Markov-type inequalities with mixed weights / Kleinste Konstanten in Markovungleichungen mit unterschiedlichen GewichtenLangenau, Holger 19 April 2016 (has links) (PDF)
Markov-type inequalities provide upper bounds on the norm of the (higher order) derivative of an algebraic polynomial in terms of the norm of the polynomial itself. The present thesis considers the cases in which the norms are of the Laguerre, Gegenbauer, or Hermite type, with respective weights chosen differently on both sides of the inequality. An answer is given to the question on the best constant so that such an inequality is valid for every polynomial of degree at most n.
The demanded best constant turns out to be the operator norm of the differential operator. The latter conicides with the tractable spectral norm of its matrix representation in an appropriate set of orthonormal bases.
The methods to determine these norms vary tremendously, depending on the difference of the parameters accompanying the weights. Up to a very small gap in the parameter range, asymptotics for the best constant in each of the aforementioned cases are given. / Markovungleichungen liefern obere Schranken an die Norm einer (höheren) Ableitung eines algebraischen Polynoms in Bezug auf die Norm des Polynoms selbst. Diese vorliegende Arbeit betrachtet den Fall, dass die Normen vom Laguerre-, Gegenbauer- oder Hermitetyp sind, wobei die entsprechenden Gewichte auf beiden Seiten unterschiedlich gewählt werden. Es wird die kleinste Konstante bestimmt, sodass diese Ungleichung für jedes Polynom vom Grad höchstens n erfüllt ist.
Die gesuchte kleinste Konstante kann als die Operatornorm des Differentialoperators dargestellt werden. Diese fällt aber mit der Spektralnorm der Matrixdarstellung in einem Paar geeignet gewählter Orthonormalbasen zusammen und kann daher gut behandelt werden.
Zur Abschätzung dieser Normen kommen verschiedene Methoden zum Einsatz, die durch die Differenz der in den Gewichten auftretenden Parameter bestimmt werden. Bis auch eine kleine Lücke im Parameterbereich wird das asymptotische Verhalten der kleinsten Konstanten in jedem der betrachteten Fälle ermittelt.
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Chování jednorozměrných integrálních operátorů na prostorech funkcí / Behavior of one-dimensional integral operators on function spacesBuriánková, Eva January 2016 (has links)
In this manuscript we study the action of one-dimensional integral operators on rearrangement-invariant Banach function spaces. Our principal goal is to characterize optimal target and optimal domain spaces corresponding to given spaces within the category of rearrangement-invariant Banach function spaces as well as to establish pointwise estimates of the non-increasing rearrangement of a given operator applied on a given function. We apply these general results to proving optimality relations between special rearrangement-invariant spaces. We pay special attention to the Laplace transform, which is a pivotal example of the operators in question. Powered by TCPDF (www.tcpdf.org)
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Local Tb theorems and Hardy type inequalities / Théorèmes Tb locaux et inégalités de types HardyRoutin, Eddy 06 December 2011 (has links)
On étudie dans cette thèse les théorèmes Tb locaux pour les opérateurs d’intégrale singulière, dans le cadre des espaces de type homogène. On donne une preuve directe du théorème Tb local avec hypothèses d’intégrabilité L^2 sur le système pseudo-accrétif. Notre argument repose sur l’algorithme Beylkin-Coifman-Rokhlin, appliqué dans des bases d’ondelettes de Haar adaptées, et sur des résultats de temps d’arrêt. Motivés par une question posée par S. Hofmann, on étend notre résultat au cas où les conditions d’intégrabilité sont inférieures à 2, avec une hypothèse supplémentaire de type faible bornitude, qui incorpore des inégalités de type Hardy. On étudie la possibilité d’affaiblir les conditions de support du système pseudo-accrétif en l’autorisant à être défini sur un petit élargissement des cubes dyadiques. On donne également un résultat dans le cas où, pour des raisons pratiques, les hypothèses sur le système pseudo-accrétif sont faites sur les boules au lieu des cubes dyadiques. Enfin, on s’intéresse au cas des opérateurs parfaitement dyadiques pour lesquels la démonstration est grandement simplifiée. Notre argument nous donne l’opportunité de nous intéresser aux inégalités de type Hardy. Ces estimations sont bien connues des spécialistes dans le cadre Euclidien, mais elles ne semblent pas avoir été étudiées dans les espaces de type homogène. On montre qu’elles sont vérifiées sans restriction dans le cadre dyadique. Dans le cas plus général d’une boule B et de sa couronne 2B\B, elles peuvent être déduites de certaines conditions géométriques de distribution des points dans l’espace de type homogène. Par exemple, on prouve qu’une condition de petite couche relative est suffisante. On montre aussi que cette propriété est impliquée par la propriété de monotonie géodésique de Tessera. Enfin, on présente quelques exemples et contre-exemples explicites dans le plan complexe, afin d’illustrer le lien entre la géométrie de l’espace de type homogène et la validité des inégalités de type Hardy. / In this thesis, we study local Tb theorems for singular integral operators in the setting of spaces of homogeneous type. We give a direct proof of the local Tb theorem with L^2 integrability on the pseudo- accretive system. Our argument relies on the Beylkin-Coifman-Rokhlin algorithm applied in adapted Haar wavelet basis and some stopping time results. Motivated by questions of S. Hofmann, we extend it to the case when the integrability conditions are lower than 2, with an additional weak boundedness type hypothesis, which incorporates some Hardy type inequalities. We study the possibility of relaxing the support conditions on the pseudo-accretive system to a slight enlargement of the dyadic cubes. We also give a result in the case when, for practical reasons, hypotheses on the pseudo-accretive system are made on balls rather than dyadic cubes. Finally we study the particular case of perfect dyadic operators for which the proof gets much simpler. Our argument gives us the opportunity to study Hardy type inequalities. The latter are well known in the Euclidean setting, but seem to have been overlooked in spaces of homogeneous type. We prove that they hold without restriction in the dyadic setting. In the more general case of a ball B and its corona 2B\B, they can be obtained from some geometric conditions relative to the distribution of points in the homogeneous space. For example, we prove that some relative layer decay property suffices. We also prove that this property is implied by the monotone geodesic property of Tessera. Finally, we give some explicit examples and counterexamples in the complex plane to illustrate the relationship between the geometry of the homogeneous space and the validity of the Hardy type inequalities.
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Théorie des opérateurs sur les espaces de tentes / Operator theory on tent spacesHuang, Yi 12 November 2015 (has links)
Nous donnons un mécanisme de type Calderón-Zygmund concernant la théorie de l’extrapolationpour des opérateurs d’intégrale singulière sur les espaces de tentes. Pour des opérateursde régularité maximale sur les espaces de tentes, nous donnons des résultats optimaux enexploitant la structure des opérateurs intégraux de convolution et en utilisant des estimationsde la décroissance hors-diagonale du semi-groupe ou de la famille résolvante sous-jacente.Nous appliquons des techniques précédentes d’analyse harmonique et fonctionnelle pourestimer sur les espaces de tentes certains opérateurs d’intégrale évolutionnelle, nées de l’étudedes problèmes aux limites elliptiques et des systèmes non-autonomes du premier ordre. / We give a Calderón-Zygmund type machinery concerning the extrapolation theory for thesingular integral operators on tent spaces. For maximal regularity operators on tent space, wegive some optimal results by exploiting the structure of convolution integral operators and byusing the off-diagonal decay estimates of the underlying semigroup or resolvent family.We apply the previous harmonic and functional analysis techniques to estimate on tentspaces certain evolutionary integral operators arisen from the study of boundary value ellipticproblems and first order non-autonomous systems.
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