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El. knyga: First Course in Ergodic Theory

(Leiden University, The Netherlands), (Utrecht University, The Netherlands)
  • Formatas: 268 pages
  • Išleidimo metai: 04-Jul-2021
  • Leidėjas: Chapman & Hall/CRC
  • Kalba: eng
  • ISBN-13: 9781000402773
Kitos knygos pagal šią temą:
First Course in Ergodic TheoryDidesnis paveikslėlis
  • Formatas: 268 pages
  • Išleidimo metai: 04-Jul-2021
  • Leidėjas: Chapman & Hall/CRC
  • Kalba: eng
  • ISBN-13: 9781000402773
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A First Course in Ergodic Theory provides readers with an introductory course in Ergodic Theory. This textbook has been developed from the authors’ own notes on the subject, which they have been teaching since the 1990s. Over the years they have added topics, theorems, examples and explanations from various sources. The result is a book that is easy to teach from and easy to learn from — designed to require only minimal prerequisites.

Features

  • Suitable for readers with only a basic knowledge of measure theory, some topology and a very basic knowledge of functional analysis

  • Perfect as the primary textbook for a course in Ergodic Theory

    • Examples are described and are studied in detail when new properties are presented.



    • This book provides readers with an introductory course in Ergodic Theory. This textbook has been developed from the authors’ own notes on the subject, which they have been teaching since the 1990s. Over the years they have added topics, theorems, examples and explanations from various sources.

     

    Recenzijos

    "A First Course in Ergodic Theory by Dajani and Kalle provides not only a crystal clear introduction to the core of ergodic theory, but also goes down paths previously accessible only through the research literature. The book covers ergodic theorems, invariant measures, entropy and the variational principle. But it also covers piecewise monotone interval maps, Perron-Frobenius operators, natural extensions, and the useful lemma of Knopp. Another theme is the theory of conservative nonsingular and infinite measure preserving transformations. All of this is illustrated via numerous examples from (not necessarily regular) continued fractions and other number expansions, the authors specialty. Throughout the book, the proofs patiently explain details often ignored. An excellent appendix provides a reference to needed results from topology, measure theory, probability and functional analysis." E. Arthur (Robbie) Robinson, Jr., Professor of Mathematics at George Washington University and co-author of The Mathematics of Politics

    "This textbook is a delightful introduction to Ergodic Theory. It starts at a basic level, giving intuitive explanations and motivations, and concludes with more advanced topics such as variational principle and infinite ergodic theory. The style is very crisp, and many of the results are proved.

    Examples which are primarily taken from number theory run as a red thread through the manuscript. This makes this textbook quite different from other classic textbooks on the subject. Its very easy to build an advanced UG or a postgraduate lecture course around this material." Sebastian van Strien, Imperial College London

    Preface. Author Bios.
    1. Measure preservingness and basic examples. 1.1.
    What is Ergodic Theory. 1.2. Measure Preserving Transformations. 1.3. Basic
    Examples.
    2. Recurrence and Ergodicity. 2.1. Recurrence. 2.2. Ergodicity.
    2.3. Examples of Ergodic Transformations.
    3. The Pointwise Ergodic Theorem
    and its consequences. 3.2. Normal Numbers. 3.3. Characterization of
    Irreducible Markov Chains. 3.4. Mixing.
    4. More Ergodic Theorem. The mean
    Ergodic Theorem. 4.2. The Hurewicz Erogdic Theorem.
    5. Measure Preserving
    Isomorphisms. 5.2. Factor Maps. 5.3. Natural Extensions.
    6. The
    PerronFrobenius Operator. 6.1. Absolutely Continuous Invariants Measures.
    6.2. Exactness. Densities for Piecewise Monotnoe Interval Maps.
    7. Invariant
    Measures for Continuous Transformations. 7.1. Existence. 7.2. Unique
    Ergodicity and Inform Distributions. 7.3. Some Topological Dynamics.
    8.
    Continued Fractions. 8.1. Basic Properties of Regular Continue Fractions.
    8.2. Ergodic Properties of Gauss Map. 8.3. Natural Extension and the
    DoeblinLenstra Conjecture. 8.4. Other Continue Fraction Transformation.
    9.
    Entropy. 9.1. Randomness and Information. 9.2. Definitions and Properties.
    Calculation of Entropy and Examples. 9.4. The ShannonMcMillanBreiman
    Theorem. 9.5. Lochs Theorem.
    10. The Variational Principle. 10.1 Topological
    Entropy. 10.2. Main Theorem. 10.3. Measures of Maximal Entropy.
    11. Infinite
    Ergodic Theory. 11.1 Examples of Infinite Measure Dynamical Systems. 11.2.
    Conservative and Dissipative Part. 11.3. Induced Systems. 11.4. Jump
    Transformations. 11.5. Ergodic Theorem for Infinite Measure Systems.
    12.
    Appendix. 12.1. Topology. 12.2. Measure Theory. 12.3 Lebesgue Spaces. 12.4.
    Lebesgue Integration and Convergence Results. 12.5. Hilberts Spaces. 12.6.
    Borel Measures on Compact Metric Spaces. 12.7. Functions of Bounded
    Variation. Bibliography. Index.
    Karma Dajani earned her PhD degree from the George Washington University in DC and is currently an Associate Professor in Mathematics at Utrecht University in the Netherlands. She has over 30 years of teaching experience, close to 60 publications and is the co-author of the book Ergodic Theory of Numbers. Her research interests are primarily in Ergodic Theory and its applications to other fields such as Number Theory, Probability Theory and Symbolic Dynamics. Although Mathematics is her career but it is also one of her three passions: math, dance and classical music.

    Charlene Kalle earned her PhD in mathematics from Utrecht University. After postdoctoral positions at Warwick University and the University of Vienna, she moved to Leiden University where she is now an Assistant Professor in Mathematics. Her research is in ergodic theory with applications to probability theory. She is also interested in relations to number theory and fractal geometry. She was awarded two prestigious research grants from the Dutch Research Council NWO. Besides twenty research articles, she has co-authored a book on extracurricular high school mathematics. She has accumulated twenty years of teaching experience ranging from teaching Italian language to adults to lecturing master courses in mathematics. She mostly devotes her time not spent on mathematics to her three children and playing bridge.
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