Probabilistic Properties of Delay Differential Equations

Taylor, S. Richard

January 2004

Systems whose time evolutions are entirely deterministic can nevertheless be studied probabilistically, <em>i. e. </em> in terms of the evolution of probability distributions rather than individual trajectories. This approach is central to the dynamics of ensembles (statistical mechanics) and systems with uncertainty in the initial conditions. It is also the basis of ergodic theory--the study of probabilistic invariants of dynamical systems--which provides one framework for understanding chaotic systems whose time evolutions are erratic and for practical purposes unpredictable. Delay differential equations (DDEs) are a particular class of deterministic systems, distinguished by an explicit dependence of the dynamics on past states. DDEs arise in diverse applications including mathematics, biology and economics. A probabilistic approach to DDEs is lacking. The main problems we consider in developing such an approach are (1) to characterize the evolution of probability distributions for DDEs, <em>i. e. </em> develop an analog of the Perron-Frobenius operator; (2) to characterize invariant probability distributions for DDEs; and (3) to develop a framework for the application of ergodic theory to delay equations, with a view to a probabilistic understanding of DDEs whose time evolutions are chaotic. We develop a variety of approaches to each of these problems, employing both analytical and numerical methods. In transient chaos, a system evolves erratically during a transient period that is followed by asymptotically regular behavior. Transient chaos in delay equations has not been reported or investigated before. We find numerical evidence of transient chaos (fractal basins of attraction and long chaotic transients) in some DDEs, including the Mackey-Glass equation. Transient chaos in DDEs can be analyzed numerically using a modification of the "stagger-and-step" algorithm applied to a discretized version of the DDE.

Mathematics

delay differential equations

DDE

Perron-Frobenius operator

ergodic theory

densities

chaos

Well-posedness of dynamics of microstructure in solids

Sengul, Yasemin

January 2010

In this thesis, the problem of well-posedness of nonlinear viscoelasticity under the assumptions allowing for phase transformations in solids is considered. In one space dimension we prove existence and uniqueness of the solutions for the quasistatic version of the model using approximating sequences corresponding to the case when initial data takes finitely many values. This special case also provides upper and lower bounds for the solutions which are interesting in their own rights. We also show equivalence of the existence theory we develop with that of gradient flows when the stored-energy function is assumed to be -convex. Asymptotic behaviour of the solutions as time goes to infinity is then investigated and stabilization results are obtained by means of a new argument. Finally, we look at the problem from the viewpoint of curves of maximal slope and follow a time-discretization approach. We introduce a three-dimensional method based on composition of time-increments, as a result of which we are able to deal with the physical requirement of frame-indifference. In order to test this method and distinguish the difficulties for possible generalizations, we look at the problem in a convex setting. At the end we are able to obtain convergence of the minimization scheme as time step goes to zero.

530.412

Quelques problèmes de convergence et de récurrence multiple en théorie ergodique / Some problems of multiple convergence and recurrence in ergodic theory

Chu, Qing

06 July 2010

Cette thèse est consacrée à l'étude de certaines questions de convergence et de récurrence multiples en théorie ergodique. Nous distinguons les systèmes munis d'une transformation et ceux munis de plusieurs transformations qui commutent. Dans les premiers, le mécanisme de facteurs caractéristiques et les nilsystèmes jouent un rôle important dans l'étude de convergence et de récurrence multiples. À l'aide de ces outils, nous étendons les résultats sur la convergence de moyennes ergodiquesmultiples pondérées de Host et Kra pour le cas linéaire au cas polynômial. En conséquence, nous montrons que pour toute fonction $f$ mesurable bornée sur un système ergodique, la suite $(f(T^n x))$ est universellement bonne pour presque tout $x$. Quand il y a plusieurs transformations qui commutent, à l'aide de la machinerie des systèmes magiques introduite récemment par Host et développée dans cette thèse, nous étendons les résultats sur la convergence de moyennes ergodiques multiples sur les cubes de Host et Kra avec une transformation à plusieurs transformations qui commutent. Nous obtenons aussi un résultat de récurrence multiple quantitatif pour deux transformations qui commutent, similaire en faveur du cas d'une transformation établi par Bergelson, Host et Kra / This thesis is devoted to the study of some questions of multiple convergence and recurrence in ergodic theory. We distinguish between systems endowed with a single transformation and systems endowed with several commuting transformations. In the former, characteristic factors and nilsystemsplay an important role in the study of multiple convergence and recurrence. Using these tools, we extend results on convergence of weighted multiple ergodic averages of Host and Kra for the linear case to the polynomial case. As a consequence, we show that for any bounded measurable function $f$ on an ergodic system, the sequence $f(T^n x)$ is universally good for almost every $x$. In systems endowed with several commuting transformations, we use the machinery of magic systems introduced recently by Host and further properties of magic systems developed in this thesis,to extend results of Host and Kra on convergence of multiple ergodic averages along cubes with a single transformation to commuting transformations. We obtain a quantitative multiple recurrence result for two commuting transformations, similar in flavour to that of a single transformationestablished by Bergelson, Host and Kra, but with a different conclusion

Convergence

Suites récurrentes

Théorie ergodique

Polynômes

Convergence

Recurrent sequences

Ergodic theory

Polynomials

Étude d'une famille de transformations préservant la mesure de Z×T / Study of a family of measure-preserving transformations on Z×T

Málaga Sabogal, Alba Marina

12 December 2014

L'objectif de cette thèse est d'étudier les comportements typiques d'une famille de transformations du cylindre discret Z×T (où T=R/Z est le cercle de longueur un). Appliquez une rotation à chaque cercle du cylindre puis coupez tous les cercles en deux et déplacez une moitié de chaque cercle d'un niveau vers le bas et une moitié d'un niveau vers le haut. Nous utilisons pour cela des résultats existants en théorie des échanges d'intervalles et en théorie des surfaces de translation compactes. Tout d'abord, nous avons prouvé que pour presque toute suite bi-infinie de rotations, le système obtenu est conservatif (c'est à dire il n'y a pas d'ensemble errant de mesure strictement positive). Ensuite, nous avons prouvé que pour un ensemble Gδ-dense de paramètres, le système est en même temps conservatif, minimal et ergodique. Ce système a un rapport heuristique avec une famille de billards planaires, ainsi qu'une traduction dans des flots sur des surfaces de translation de genre infini. Cela est expliqué dans la thèse. / The main objective of this thesis is the study of the typical dynamical behaviour of a family of transformations on the discrete cylinder Z×T (where T=R/Z is the length one circle). Apply a rotation to every single circle of the cylinder then cut every circle in two and move half of each circle one level down and the other half one level up. To achieve this goal, we use existing results about interval exchange transformations and about compact translation surfaces. First, we proved that for almost every bi-infinite sequence of rotations, the obtained system is conservative (i.e. there is not wandering set of positive measure). Next, we proved that for a Gδ-dense set of parameters, the described system is ergodic, minimal and conservative. This system is heuristically related to a family of planar billiards, it has also a translation into flows on infinite genus translation surfaces.

Billards polygonaux

Théorie ergodique

Systèmes dynamiques

Polygonal billiards

Ergodic theory

Dynamical systems

Teoria ergódica em fluxos homogêneos e teoremas de Ratner / Ergodic theory on homogeneous flows and Ratners theorems

Ramos, Thiago Rodrigo

14 June 2018

Neste trabalho, provamos um caso particular do Teorema de Ratner de classificação de medidas, que nos diz que se X =&Gamma;\\G é um espaço homogêneo, onde G é um grupo de Lie e &Gamma; é um lattice de G, então dado um subgrupo unipotente U de G, conseguimos classificar as medidas ergódicas com relação a ação por translação do grupo U em X. Além do Teorema de Ratner de classificação de medidas, falamos sobre o Teorema de Ratner de equidistribuição e o Teorema de Ratner do fecho da órbita, que nos dizem como são as órbitas pela ação por translação do grupo U e como é sua dinâmica em X, do ponto de vista da Teoria Ergódica. Embora estes últimos resultados não sejam provados nesta dissertação, exibimos uma importante aplicação do Teorema de Ratner do fecho da órbita em teoria dos números, provando a Conjectura de Oppeinheim, também conhecida como Teorema de Margullis. / In this work, we prove a particular case of the Ratners measure classification theorem, which tell us that if X = &Gamma;\\G is an homogeneous space, where G is a Lie group and &Gamma; is a lattice of G, then given any unipotent group U of G, we can classify the measures that are ergodic with respect to the translation group action of U in X In addition to the Ratners measure classification theorem, we talk about the Ratners equidistribuition theorem and the Ratners orbit closure theorem, which tell us how the orbit due the action by translation by the group U are and how the dynamics in X is, in an Ergodic Theory point of view. While we didnt prove the last two Ratners theorems, we exhibit an important application of the Ratners orbit closure theorem in number theory, proving the Oppeinheim Conjecture, also know as Margullis Theorem.

Ergodic theory

Espaços homogêneos

Grupos de Lie

Homogeneous spaaces

Lie Groups

Ratners Theorems

Teoremas de Ratner

Teoria ergódica

Fundamental Limits of Poisson Channels in Visible Light Communications

Ain-Ul-Aisha, FNU

18 April 2017

Visible Light Communications (VLC) has recently emerged as a viable solution for solving the spectrum shortage problem. The idea is to use artificial light sources as medium to communicate with portable devices. In particular, the light sources can be switched on and off with a very high-frequency corresponding to 1s and 0s of digital communication. The high-frequency on-off switching can be detected by electronic devices but not the human eyes, and hence will not affect the light sources' illumination functions. In VLC, if a receiver is equipped with photodiodes that count the number of arriving photons, the channels can be modeled as Poisson channels. Unlike Gaussian channels that are suitable for radio spectrum and have been intensively investigated, Poisson channels are more challenging and are not that well understood. The goal of this thesis is to characterize the fundamental limits of various Poisson channels that models different scenarios in VLC. We first focus on single user Poisson fading channels with time-varying background lights. Our model is motivated by indoor optical wireless communication systems, in which the noise level is affected by the strength of the background light. We study both the single-input single-output (SISO) and the multiple-input and multiple-output (MIMO) channels. For each channel, we consider scenarios with and without delay constraints. For the case without a delay constraint, we characterize the optimal power allocation scheme that maximizes the ergodic capacity. For the case with a strict delay constraint, we characterize the optimal power allocation scheme that minimizes the outage probability. We then extend the study to the multi-user Poisson channels and analyze the sum-rate capacity of two-user Poisson multiple access channels (MAC). We first characterize the sum-rate capacity of the non-symmetric Poisson MAC when each transmitter has a single antenna. We show that, for certain channel parameters, it is optimal for a single-user to transmit to achieve the sum-rate capacity. This is in sharp contrast to the Gaussian MAC, in which both users must transmit, either simultaneously or at different times, in order to achieve the sum-rate capacity. We then characterize the sum-rate capacity of the Poisson MAC with multiple antennas at each transmitter. By converting a non-convex optimization problem with a large number of variables into a non-convex optimization problem with two variables, we show that the sum-rate capacity of the Poisson MAC with multiple transmit antennas is equivalent to a properly constructed Poisson MAC with a single antenna at each transmitter. We further analyze the sum-rate capacity of two-user Poisson MIMO multiple-access channels (MAC), when both the transmitters and the receiver are equipped with multiple antennas. We first characterize the sum-rate capacity of the Poisson MAC when each transmitter has a single antenna and the receiver has multiple antennas. We show that similar to Poisson MISO-MAC channels, for certain channel parameters, it is optimal for a single user to transmit to achieve the sum-rate capacity, and for certain channel parameters, it is optimal for both users to transmit. We then characterize the sum-rate capacity of the channel where both the transmitters and the receiver are equipped with multiple antennas. We show that the sum-rate capacity of the Poisson MAC with multiple transmit antennas is equivalent to a properly constructed Poisson MAC with a single antenna at each transmitter.

Poisson channels

ergodic capacity

outage probability

multi-access channels

optimal power allocation

sum-rate capacity

Power Adaption Over Fluctuating Two-Ray Fading Channels and Fisher-Snedecor F Fading Channels

Zhao, Hui

04 1900

In this thesis, we investigate the ergodic capacity under several power adaption schemes, including optimal power and rate algorithm (OPRA), optimal rate algo rithm (ORA), channel inversion (CI), and truncated channel inversion (TCI), over fluctuating two-ray (FTR) fading channels and Fisher-Snedecor F fading channels. After some mathematical manipulations, the exact expressions for the EC under those power adaption schemes are derived. To simplify the expressions and also get some insights from the analysis, the corresponding asymptotic expressions for the EC are also derived in order to show the slope and power offset of the EC in the high signal-to-noise ratio (SNR) region. These two metrics, i.e., slope and power offset, govern the EC behaviour in the high SNR region. Specifically, from the derived asymptotic expressions, we find that the slope of the EC of OPRA and ORA over FTR fading channels is always unity with respect to the average SNR in the log-scale in high SNRs, while the asymptotic EC of the TCI method is not a line function in the log-scale. For the Fisher-Snedecor F fading channel, the slope of asymptotic EC under OPRA, ORA, and CI (m > 1) schemes is unity in the log-scale, where m is the fading parameter. The slope of the TCI method depends on m, i.e., unity for m > 1 and m for m > 1, while the asymptotic EC of TCI is not a line function for m = 1. Finally, Monte-Carlo simulations are used to demonstrate the correctness of the derived expressions.

Power Adaption

Ergodic Capacity

Fading Channels

Fisher-Snedecor F

Fluctuating Two-Ray

Probabilistic Properties of Delay Differential Equations

Taylor, S. Richard

January 2004

Systems whose time evolutions are entirely deterministic can nevertheless be studied probabilistically, <em>i. e. </em> in terms of the evolution of probability distributions rather than individual trajectories. This approach is central to the dynamics of ensembles (statistical mechanics) and systems with uncertainty in the initial conditions. It is also the basis of ergodic theory--the study of probabilistic invariants of dynamical systems--which provides one framework for understanding chaotic systems whose time evolutions are erratic and for practical purposes unpredictable. Delay differential equations (DDEs) are a particular class of deterministic systems, distinguished by an explicit dependence of the dynamics on past states. DDEs arise in diverse applications including mathematics, biology and economics. A probabilistic approach to DDEs is lacking. The main problems we consider in developing such an approach are (1) to characterize the evolution of probability distributions for DDEs, <em>i. e. </em> develop an analog of the Perron-Frobenius operator; (2) to characterize invariant probability distributions for DDEs; and (3) to develop a framework for the application of ergodic theory to delay equations, with a view to a probabilistic understanding of DDEs whose time evolutions are chaotic. We develop a variety of approaches to each of these problems, employing both analytical and numerical methods. In transient chaos, a system evolves erratically during a transient period that is followed by asymptotically regular behavior. Transient chaos in delay equations has not been reported or investigated before. We find numerical evidence of transient chaos (fractal basins of attraction and long chaotic transients) in some DDEs, including the Mackey-Glass equation. Transient chaos in DDEs can be analyzed numerically using a modification of the "stagger-and-step" algorithm applied to a discretized version of the DDE.

Mathematics

delay differential equations

DDE

Perron-Frobenius operator

ergodic theory

densities

chaos

KOTOR- en narratologisk smältdegel : En analys av berättarstrukturen i datorspelet Star wars: Knights Of The Old Republic / KOTOR-A Narrative Fusion. : A narrative analysis of the computer game Star Wars:Knights Of The Old Republic

Willander, Martin

January 2008

No description available.

Ergodic literature

Computer games

Narratologi

Berättarteknik

Hyperwork

Hypertext

Spel

story

diskurs

Literature

Litteraturvetenskap

KOTOR- en narratologisk smältdegel : En analys av berättarstrukturen i datorspelet Star wars: Knights Of The Old Republic / KOTOR-A Narrative Fusion. : A narrative analysis of the computer game Star Wars:Knights Of The Old Republic

Willander, Martin

January 2008

No description available.

Ergodic literature

Computer games

Narratologi

Berättarteknik

Hyperwork

Hypertext

Spel

story

diskurs

Literature

Litteraturvetenskap