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The theory of L[superscript p]-random measures /Revesz, Michael Bela, January 2000 (has links)
Thesis (Ph. D.)--University of Texas at Austin, 2000. / Vita. Includes bibliographical references (leaves 208-211) and indexes. Available also in a digital version from Dissertation Abstracts.
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Palm measure invariance and exchangeability for marked point processesPeng, Man, Kallenberg, Olav, January 2008 (has links) (PDF)
Thesis (Ph. D.)--Auburn University, 2008. / Abstract. Vita. Includes bibliographical references (p. 76-78).
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Implementation of one surface fitting algorithm for randomly scattered scanning dataGuo, Xi. January 2000 (has links)
Thesis (M.S.)--Ohio University, August, 2000. / Title from PDF t.p.
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Explicit Lp-norm estimates of infinitely divisible random vectors in Hilbert spaces with applicationsTurner, Matthew D 01 May 2011 (has links)
I give explicit estimates of the Lp-norm of a mean zero infinitely divisible random vector taking values in a Hilbert space in terms of a certain mixture of the L2- and Lp-norms of the Levy measure. Using decoupling inequalities, the stochastic integral driven by an infinitely divisible random measure is defined. As a first application utilizing the Lp-norm estimates, computation of Ito Isomorphisms for different types of stochastic integrals are given. As a second application, I consider the discrete time signal-observation model in the presence of an alpha-stable noise environment. Formulation is given to compute the optimal linear estimate of the system state.
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Comparison of modes of convergence in a particle system related to the Boltzmann equationPetersson, Mikael January 2010 (has links)
The distribution of particles in a rarefied gas in a vessel can be described by the Boltzmann equation. As an approximation of the solution to this equation, Caprino, Pulvirenti and Wagner [3] constructed a random N-particle system. In the equilibrium case, they prove in [3] that the L1-distance between the density function of k particles in the N-particle process and the k-fold product of the solution to the stationary Boltzmann equation is of order 1/N. They do this in order to show that the N-particle system converges to the system described by the stationary Boltzmann equation as the number of particles tends to infinity. This is different from the standard approach of describing convergence of an N-particle system. Usually, convergence in distribution of random measures or weak convergence of measures over the space of probability measures is used. The purpose of the present thesis is to compare different modes of convergence of the N-particle system as N tends to infinity assuming stationarity.
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Operators defined by conditional expectations and random measures / Daniel Thanyani RambaneRambane, Daniel Thanyani January 2004 (has links)
This study revolves around operators defined by conditional expectations
and operators generated by random measures.
Studies of operators in function spaces defined by conditional expectations
first appeared in the mid 1950's by S-T.C. Moy [22] and S. Sidak [26].
N. Kalton studied them in the setting of Lp-spaces 0 < p < 1 in [15, 131 and
in L1-spaces, [14], while W. Arveson [5] studied them in L2-spaces. Their
averaging properties were studied by P.G. Dodds and C.B. Huijsmans and
B. de Pagter in [7] and C.B. Huijsmans and B. de Pagter in [lo]. A. Lambert
[17] studied their relationship with multiplication operators in C*-modules.
It was shown by J.J. Grobler and B. de Pagter [8] that partial integral operators
that were studied A.S. Kalitvin et a1 in [2, 4, 3, 11, 121 and the special
cases of kernel operators that were, inter alia, studied by A.R. Schep in [25]
were special cases of conditional expectation operators.
On the other hand, operators generated by random measures or pseudo-integral
operators were studied by A. Sourour [28, 271 and L.W. Weis [29,30],
building on the studies of W. Arveson [5] and N. Kalton [14, 151, in the late
1970's and early 1980's.
In this thesis we extend the work of J.J. Grobler and B. de Pagter [8] on
Multiplication Conditional Expectation-representable (MCE-representable)
operators. We also generalize the result of A. Sourour [27] and show that
order continuous linear maps between ideals of almost everywhere finite
measurable functions on u-finite measure spaces are MCE-representable.
This fact enables us to easily deduce that sums and compositions of MCE-representable
operators are again MCE-representable operators. We also
show that operators generated by random measures are MCE-representable.
The first chapter gathers the definitions and introduces notions and concepts
that are used throughout. In particular, we introduce Riesz spaces and
operators therein, Riesz and Boolean homomorphisms, conditional expectation
operators, kernel and absolute T-kernel operators.
In Chapter 2 we look at MCE-operators where we give a definition different
from that given by J.J. Grobler and B. de Pagter in [8], but which we
show to be equivalent.
Chapter 3 involves random measures and operators generated by random
measures. We solve the problem (positively) that was posed by A. Sourour
in [28] about the relationship of the lattice properties of operators generated
by random measures and the lattice properties of their generating random
measures. We show that the total variation of a random signed measure
representing an order bounded operator T, it being the difference of two
random measures, is again a random measure and represents ITI.
We also show that the set of all operators generated by a random measure
is a band in the Riesz space of all order bounded operators.
In Chapter 4 we investigate the relationship between operators generated
by random measures and MCE-representable operators. It was shown by
A. Sourour in [28, 271 that every order bounded order continuous linear
operator acting between ideals of almost everywhere measurable functions is
generated by a random measure, provided that the measure spaces involved
are standard measure spaces. We prove an analogue of this theorem for
the general case where the underlying measure spaces are a-finite. We also,
in this general setting, prove that every order continuous linear operator is
MCE-representable. This rather surprising result enables us to easily show
that sums, products and compositions of MCE-representable operator are
again MCE-representable.
Key words: Riesz spaces, conditional expectations, multiplication conditional
expectation-representable operators, random measures. / Thesis (Ph.D. (Mathematics))--North-West University, Potchefstroom Campus, 2004.
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Operators defined by conditional expectations and random measures / Daniel Thanyani RambaneRambane, Daniel Thanyani January 2004 (has links)
This study revolves around operators defined by conditional expectations
and operators generated by random measures.
Studies of operators in function spaces defined by conditional expectations
first appeared in the mid 1950's by S-T.C. Moy [22] and S. Sidak [26].
N. Kalton studied them in the setting of Lp-spaces 0 < p < 1 in [15, 131 and
in L1-spaces, [14], while W. Arveson [5] studied them in L2-spaces. Their
averaging properties were studied by P.G. Dodds and C.B. Huijsmans and
B. de Pagter in [7] and C.B. Huijsmans and B. de Pagter in [lo]. A. Lambert
[17] studied their relationship with multiplication operators in C*-modules.
It was shown by J.J. Grobler and B. de Pagter [8] that partial integral operators
that were studied A.S. Kalitvin et a1 in [2, 4, 3, 11, 121 and the special
cases of kernel operators that were, inter alia, studied by A.R. Schep in [25]
were special cases of conditional expectation operators.
On the other hand, operators generated by random measures or pseudo-integral
operators were studied by A. Sourour [28, 271 and L.W. Weis [29,30],
building on the studies of W. Arveson [5] and N. Kalton [14, 151, in the late
1970's and early 1980's.
In this thesis we extend the work of J.J. Grobler and B. de Pagter [8] on
Multiplication Conditional Expectation-representable (MCE-representable)
operators. We also generalize the result of A. Sourour [27] and show that
order continuous linear maps between ideals of almost everywhere finite
measurable functions on u-finite measure spaces are MCE-representable.
This fact enables us to easily deduce that sums and compositions of MCE-representable
operators are again MCE-representable operators. We also
show that operators generated by random measures are MCE-representable.
The first chapter gathers the definitions and introduces notions and concepts
that are used throughout. In particular, we introduce Riesz spaces and
operators therein, Riesz and Boolean homomorphisms, conditional expectation
operators, kernel and absolute T-kernel operators.
In Chapter 2 we look at MCE-operators where we give a definition different
from that given by J.J. Grobler and B. de Pagter in [8], but which we
show to be equivalent.
Chapter 3 involves random measures and operators generated by random
measures. We solve the problem (positively) that was posed by A. Sourour
in [28] about the relationship of the lattice properties of operators generated
by random measures and the lattice properties of their generating random
measures. We show that the total variation of a random signed measure
representing an order bounded operator T, it being the difference of two
random measures, is again a random measure and represents ITI.
We also show that the set of all operators generated by a random measure
is a band in the Riesz space of all order bounded operators.
In Chapter 4 we investigate the relationship between operators generated
by random measures and MCE-representable operators. It was shown by
A. Sourour in [28, 271 that every order bounded order continuous linear
operator acting between ideals of almost everywhere measurable functions is
generated by a random measure, provided that the measure spaces involved
are standard measure spaces. We prove an analogue of this theorem for
the general case where the underlying measure spaces are a-finite. We also,
in this general setting, prove that every order continuous linear operator is
MCE-representable. This rather surprising result enables us to easily show
that sums, products and compositions of MCE-representable operator are
again MCE-representable.
Key words: Riesz spaces, conditional expectations, multiplication conditional
expectation-representable operators, random measures. / Thesis (Ph.D. (Mathematics))--North-West University, Potchefstroom Campus, 2004.
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Some properties of a class of stochastic heat equationsOmaba, McSylvester E. January 2014 (has links)
We study stochastic heat equations of the forms $[\partial_t u-\sL u]\d t\d x=\lambda\int_\R\sigma(u,h)\tilde{N}(\d t,\d x,\d h),$ and $[\partial_t u-\sL u]\d t\d x=\lambda\int_{\R^d}\sigma(u,h)N(\d t,\d x,\d h)$. Here, $u(0,x)=u_0(x)$ is a non-random initial function, $N$ a Poisson random measure with its intensity $\d t\d x\nu(\d h)$ and $\nu(\d h)$ a L\'vy measure; $\tilde$ is the compensated Poisson random measure and $\sL$ a generator of a L\'{e}vy process. The function $\sigma:\R\rightarrow\R$ is Lipschitz continuous and $\lambda>0$ the noise level. The above discontinuous noise driven equations are not always easy to handle. They are discontinuous analogues of the equation introduced in \cite{Foondun} and also more general than those considered in \cite{Saint}. We do not only compare the growth moments of the two equations with each other but also compare them with growth moments of the class of equations studied in \cite{Foondun}. Some of our results are significant generalisations of those given in \cite{Saint} while the rest are completely new. Second and first growth moments properties and estimates were obtained under some linear growth conditions on $\sigma$. We also consider $\sL:=-(-\Delta)^{\alpha/2}$, the generator of $\alpha$-stable processes and use some explicit bounds on its corresponding fractional heat kernel to obtain more precise results. We also show that when the solutions satisfy some non-linear growth conditions on $\sigma$, the solutions cease to exist for both compensated and non-compensated noise terms for different conditions on the initial function $u_0(x)$. We consider also fractional heat equations of the form $ \partial_t u(t,x)=-(-\Delta)^{\alpha/2}u(t,x)+\lambda\sigma(u(t,x)\dot{F}(t,x),\,\, \text{for}\,\, x\in\R^d,\,t>0,\,\alpha\in(1,2),$ where $\dot{F}$ denotes the Gaussian coloured noise. Under suitable assumptions, we show that the second moment $\E|u(t,x)|^2$ of the solution grows exponentially with time. In particular we give an affirmative answer to the open problem posed in \cite{Conus3}: given $u_0$ a positive function on a set of positive measure, does $\sup_{x\in\R^d}\E|u(t,x)|^2$ grow exponentially with time? Consequently we give the precise growth rate with respect to the parameter $\lambda$.
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Modélisation stochastique de processus pharmaco-cinétiques, application à la reconstruction tomographique par émission de positrons (TEP) spatio-temporelle / Stochastic modeling of pharmaco-kinetic processes, applied to PET space-time reconstructionFall, Mame Diarra 09 March 2012 (has links)
L'objectif de ce travail est de développer de nouvelles méthodes statistiques de reconstruction d'image spatiale (3D) et spatio-temporelle (3D+t) en Tomographie par Émission de Positons (TEP). Le but est de proposer des méthodes efficaces, capables de reconstruire des images dans un contexte de faibles doses injectées tout en préservant la qualité de l'interprétation. Ainsi, nous avons abordé la reconstruction sous la forme d'un problème inverse spatial et spatio-temporel (à observations ponctuelles) dans un cadre bayésien non paramétrique. La modélisation bayésienne fournit un cadre pour la régularisation du problème inverse mal posé au travers de l'introduction d'une information dite a priori. De plus, elle caractérise les grandeurs à estimer par leur distribution a posteriori, ce qui rend accessible la distribution de l'incertitude associée à la reconstruction. L'approche non paramétrique quant à elle pourvoit la modélisation d'une grande robustesse et d'une grande flexibilité. Notre méthodologie consiste à considérer l'image comme une densité de probabilité dans (pour une reconstruction en k dimensions) et à chercher la solution parmi l'ensemble des densités de probabilité de . La grande dimensionalité des données à manipuler conduit à des estimateurs n'ayant pas de forme explicite. Cela implique l'utilisation de techniques d'approximation pour l'inférence. La plupart de ces techniques sont basées sur les méthodes de Monte-Carlo par chaînes de Markov (MCMC). Dans l'approche bayésienne non paramétrique, nous sommes confrontés à la difficulté majeure de générer aléatoirement des objets de dimension infinie sur un calculateur. Nous avons donc développé une nouvelle méthode d'échantillonnage qui allie à la fois bonnes capacités de mélange et possibilité d'être parallélisé afin de traiter de gros volumes de données. L'approche adoptée nous a permis d'obtenir des reconstructions spatiales 3D sans nécessiter de voxellisation de l'espace, et des reconstructions spatio-temporelles 4D sans discrétisation en amont ni dans l'espace ni dans le temps. De plus, on peut quantifier l'erreur associée à l'estimation statistique au travers des intervalles de crédibilité. / The aim of this work is to develop new statistical methods for spatial (3D) and space-time (3D+t) Positron Emission Tomography (PET) reconstruction. The objective is to propose efficient reconstruction methods in a context of low injected doses while maintaining the quality of the interpretation. We tackle the reconstruction problem as a spatial or a space-time inverse problem for point observations in a \Bayesian nonparametric framework. The Bayesian modeling allows to regularize the ill-posed inverse problem via the introduction of a prior information. Furthermore, by characterizing the unknowns with their posterior distributions, the Bayesian context allows to handle the uncertainty associated to the reconstruction process. Being nonparametric offers a framework for robustness and flexibility to perform the modeling. In the proposed methodology, we view the image to reconstruct as a probability density in(for reconstruction in k dimensions) and seek the solution in the space of whole probability densities in . However, due to the size of the data, posterior estimators are intractable and approximation techniques are needed for posterior inference. Most of these techniques are based on Markov Chain Monte-Carlo methods (MCMC). In the Bayesian nonparametric approach, a major difficulty raises in randomly sampling infinite dimensional objects in a computer. We have developed a new sampling method which combines both good mixing properties and the possibility to be implemented on a parallel computer in order to deal with large data sets. Thanks to the taken approach, we obtain 3D spatial reconstructions without any ad hoc space voxellization and 4D space-time reconstructions without any discretization, neither in space nor in time. Furthermore, one can quantify the error associated to the statistical estimation using the credibility intervals.
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Robust aspects of hedging and valuation in incomplete markets and related backward SDE theoryTonleu, Klebert Kentia 16 March 2016 (has links)
Diese Arbeit beginnt mit einer Analyse von stochastischen Rückwärtsdifferentialgleichungen (BSDEs) mit Sprüngen, getragen von zufälligen Maßen mit ggf. unendlicher Aktivität und zeitlich inhomogenem Kompensator. Unter konkreten, in Anwendungen leicht verifizierbaren Bedingungen liefern wir Existenz-, Eindeutigkeits- und Vergleichsergebnisse beschränkter Lösungen für eine Klasse von Generatorfunktionen, die nicht global Lipschitz-stetig im Sprungintegranden sein brauchen. Der übrige Teil der Arbeit behandelt robuste Bewertung und Hedging in unvollständigen Märkten. Wir verfolgen den No-Good-Deal-Ansatz, der Good-Deal-Grenzen liefert, indem nur eine Teilmenge der risikoneutralen Maße mit ökonomischer Bedeutung betrachtet wird (z.B. Grenzen für instantanen Sharpe-Ratio, optimale Wachstumsrate oder erwarteten Nutzen). Durchweg untersuchen wir ein Konzept des Good-Deal-Hedgings für welches Hedgingstrategien als Minimierer geeigneter dynamischer Risikomaße auftreten, was optimale Risikoteilung mit der Markt erlaubt. Wir zeigen, dass Hedging mindestens im-Mittel-selbstfinanzierend ist, also, dass Hedgefehler unter geeigneten A-priori-Bewertungsmaßen eine Supermartingaleigenschaft haben. Wir leiten konstruktive Ergebnisse zu Good-Deal-Bewertung und -Hedging im Rahmen von Prozessen mit Sprüngen durch BSDEs mit Sprüngen, sowie im Brown''schen Fall mit Driftunsicherheit durch klassische BSDEs und mit Volatilitätsunsicherheit durch BSDEs zweiter Ordnung her. Wir liefern neue Beispiele, die insbesondere für versicherungs- und finanzmathematische Anwendungen von Bedeutung sind. Bei Ungewissheit des Real-World-Maßes führt ein Worst-Case-Ansatz bei Annahme mehrerer Referenzmaße zu Good-Deal-Hedging, welches robust bzgl. Unsicherheit, im Sinne von gleichmäßig über alle Referenzmaße mindestens im-Mittel-selbstfinanzierend, ist. Daher ist bei hinreichend großer Driftunsicherheit Good-Deal-Hedging zur Risikominimierung äquivalent. / This thesis starts by an analysis of backward stochastic differential equations (BSDEs) with jumps driven by random measures possibly of infinite activity with time-inhomogeneous compensators. Under concrete conditions that are easy to verify in applications, we prove existence, uniqueness and comparison results for bounded solutions for a class of generators that are not required to be globally Lipschitz in the jump integrand. The rest of the thesis deals with robust valuation and hedging in incomplete markets. The focus is on the no-good-deal approach, which computes good-deal valuation bounds by using only a subset of the risk-neutral measures with economic meaning (e.g. bounds on instantaneous Sharpe ratios, optimal growth rates, or expected utilities). Throughout we study a notion of good-deal hedging consisting in minimizing some dynamic risk measures that allow for optimal risk sharing with the market. Hedging is shown to be at least mean-self-financing in that hedging errors satisfy a supermartingale property under suitable valuation measures. We derive constructive results on good-deal valuation and hedging in a jump framework using BSDEs with jumps, as well as in a Brownian setting with drift uncertainty using classical BSDEs and with volatility uncertainty using second-order BSDEs. We provide new examples which are particularly relevant for actuarial and financial applications. Under ambiguity about the real-world measure, a worst-case approach under multiple reference priors leads to good-deal hedging that is robust w.r.t. uncertainty in that it is at least mean-self-financing uniformly over all priors. This yields that good-deal hedging is equivalent to risk-minimization if drift uncertainty is sufficiently large.
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