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Markov Chains and Mixing Times: Second Edition
 
David A. Levin University of Oregon, Eugene, OR
Yuval Peres Microsoft Research, Redmond, WA
Markov Chains and Mixing Times
Hardcover ISBN:  978-1-4704-2962-1
Product Code:  MBK/107
List Price: $89.00
MAA Member Price: $80.10
AMS Member Price: $71.20
eBook ISBN:  978-1-4704-4232-3
Product Code:  MBK/107.E
List Price: $85.00
MAA Member Price: $76.50
AMS Member Price: $68.00
Hardcover ISBN:  978-1-4704-2962-1
eBook: ISBN:  978-1-4704-4232-3
Product Code:  MBK/107.B
List Price: $174.00 $131.50
MAA Member Price: $156.60 $118.35
AMS Member Price: $139.20 $105.20
Markov Chains and Mixing Times
Click above image for expanded view
Markov Chains and Mixing Times: Second Edition
David A. Levin University of Oregon, Eugene, OR
Yuval Peres Microsoft Research, Redmond, WA
Hardcover ISBN:  978-1-4704-2962-1
Product Code:  MBK/107
List Price: $89.00
MAA Member Price: $80.10
AMS Member Price: $71.20
eBook ISBN:  978-1-4704-4232-3
Product Code:  MBK/107.E
List Price: $85.00
MAA Member Price: $76.50
AMS Member Price: $68.00
Hardcover ISBN:  978-1-4704-2962-1
eBook ISBN:  978-1-4704-4232-3
Product Code:  MBK/107.B
List Price: $174.00 $131.50
MAA Member Price: $156.60 $118.35
AMS Member Price: $139.20 $105.20
  • Book Details
     
     
    2017; 447 pp
    MSC: Primary 60; 65; 68; 82

    This book is an introduction to the modern theory of Markov chains, whose goal is to determine the rate of convergence to the stationary distribution, as a function of state space size and geometry. This topic has important connections to combinatorics, statistical physics, and theoretical computer science. Many of the techniques presented originate in these disciplines.

    The central tools for estimating convergence times, including coupling, strong stationary times, and spectral methods, are developed. The authors discuss many examples, including card shuffling and the Ising model, from statistical mechanics, and present the connection of random walks to electrical networks and apply it to estimate hitting and cover times.

    The first edition has been used in courses in mathematics and computer science departments of numerous universities. The second edition features three new chapters (on monotone chains, the exclusion process, and stationary times) and also includes smaller additions and corrections throughout. Updated notes at the end of each chapter inform the reader of recent research developments.

    Readership

    Undergraduate and graduate students interested in the modern theory of Markov chains.

  • Table of Contents
     
     
    • Basic methods and examples
    • Introduction to finite Markov chains
    • Classical (and useful) Markov chains
    • Markov chain Monte Carlo: Metropolis and Glauber chains
    • Introduction to Markov chain mixing
    • Coupling
    • Strong stationary times
    • Lower bounds on mixing times
    • The symmetric group and shuffling cards
    • Random walks on networks
    • Hitting times
    • Cover times
    • Eigenvalues
    • The plot thickens
    • Eigenfunctions and comparison of chains
    • The transportation metric and path coupling
    • The Ising model
    • From shuffling cards to shuffling genes
    • Martingales and evolving sets
    • The cutoff phenomenon
    • Lamplighter walks
    • Continuous-time chains
    • Countable state space chains
    • Monotone chains
    • The exclusion process
    • Cesàro mixing time, stationary times, and hitting large sets
    • Coupling from the past
    • Open problems
    • Background material
    • Introduction to simulation
    • Ergodic theorem
    • Solutions to selected exercises
  • Additional Material
     
     
  • Reviews
     
     
    • Taking a recently emerged topic with a massive research literature and writing a textbook that can take a student from basic undergraduate mathematics to the ability to read current research papers is a hugely impressive achievement. This book will long remain the definitive required reading for anyone wishing to engage the topic more than superficially.

      David Aldous, Mathematical Intelligencer
    • Mixing times are an active research topic within many fields from statistical physics to the theory of algorithms, as well as having intrinsic interest within mathematical probability and exploiting discrete analogs of important geometry concepts. The first edition became an instant classic, being accessible to advanced undergraduates and yet bringing readers close to current research frontiers. This second edition adds chapters on monotone chains, the exclusion process and hitting time parameters. Having both exercises and citations to important research papers it makes an outstanding basis for either a lecture course or self-study.

      David Aldous, University of California, Berkeley
    • Mixing time is the key to Markov chain Monte Carlo, the queen of approximation techniques. With new chapters on monotone chains, exclusion processes, and set-hitting, Markov Chains and Mixing Times is more comprehensive and thus more indispensable than ever. Prepare for an eye-opening mathematical tour!

      Peter Winkler, Dartmouth College
    • The study of finite Markov chains has recently attracted increasing interest from a variety of researchers. This is the second edition of a very valuable book on the subject. The main focus is on the mixing time of Markov chains, but there is a lot of additional material.

      In this edition, the authors have taken the opportunity to add new material and bring the reader up to date on the latest research. I have used the first edition in a graduate course and I look forward to using this edition for the same purpose in the near future.

      Alan Frieze, Carnegie Mellon University
    • Praise for the first edition:

      Markov Chains and Mixing Times is a magical book, managing to be both friendly and deep. It gently introduces probabilistic techniques so that an outsider can follow. At the same time, it is the first book covering the geometric theory of Markov chains and has much that will be new to experts. It is certainly THE book that I will use to teach from. I recommend it to all comers, an amazing achievement.

      Persi Diaconis, Mary V. Sunseri Professor of Statistics and Mathematics, Stanford University
    • In this book, [the authors] rapidly take a well-prepared undergraduate to the frontiers of research. Short, focused chapters with clear logical dependencies allow readers to use the book in multiple ways.

      CHOICE Magazine
  • Requests
     
     
    Review Copy – for publishers of book reviews
    Desk Copy – for instructors who have adopted an AMS textbook for a course
    Examination Copy – for faculty considering an AMS textbook for a course
    Permission – for use of book, eBook, or Journal content
    Accessibility – to request an alternate format of an AMS title
2017; 447 pp
MSC: Primary 60; 65; 68; 82

This book is an introduction to the modern theory of Markov chains, whose goal is to determine the rate of convergence to the stationary distribution, as a function of state space size and geometry. This topic has important connections to combinatorics, statistical physics, and theoretical computer science. Many of the techniques presented originate in these disciplines.

The central tools for estimating convergence times, including coupling, strong stationary times, and spectral methods, are developed. The authors discuss many examples, including card shuffling and the Ising model, from statistical mechanics, and present the connection of random walks to electrical networks and apply it to estimate hitting and cover times.

The first edition has been used in courses in mathematics and computer science departments of numerous universities. The second edition features three new chapters (on monotone chains, the exclusion process, and stationary times) and also includes smaller additions and corrections throughout. Updated notes at the end of each chapter inform the reader of recent research developments.

Readership

Undergraduate and graduate students interested in the modern theory of Markov chains.

  • Basic methods and examples
  • Introduction to finite Markov chains
  • Classical (and useful) Markov chains
  • Markov chain Monte Carlo: Metropolis and Glauber chains
  • Introduction to Markov chain mixing
  • Coupling
  • Strong stationary times
  • Lower bounds on mixing times
  • The symmetric group and shuffling cards
  • Random walks on networks
  • Hitting times
  • Cover times
  • Eigenvalues
  • The plot thickens
  • Eigenfunctions and comparison of chains
  • The transportation metric and path coupling
  • The Ising model
  • From shuffling cards to shuffling genes
  • Martingales and evolving sets
  • The cutoff phenomenon
  • Lamplighter walks
  • Continuous-time chains
  • Countable state space chains
  • Monotone chains
  • The exclusion process
  • Cesàro mixing time, stationary times, and hitting large sets
  • Coupling from the past
  • Open problems
  • Background material
  • Introduction to simulation
  • Ergodic theorem
  • Solutions to selected exercises
  • Taking a recently emerged topic with a massive research literature and writing a textbook that can take a student from basic undergraduate mathematics to the ability to read current research papers is a hugely impressive achievement. This book will long remain the definitive required reading for anyone wishing to engage the topic more than superficially.

    David Aldous, Mathematical Intelligencer
  • Mixing times are an active research topic within many fields from statistical physics to the theory of algorithms, as well as having intrinsic interest within mathematical probability and exploiting discrete analogs of important geometry concepts. The first edition became an instant classic, being accessible to advanced undergraduates and yet bringing readers close to current research frontiers. This second edition adds chapters on monotone chains, the exclusion process and hitting time parameters. Having both exercises and citations to important research papers it makes an outstanding basis for either a lecture course or self-study.

    David Aldous, University of California, Berkeley
  • Mixing time is the key to Markov chain Monte Carlo, the queen of approximation techniques. With new chapters on monotone chains, exclusion processes, and set-hitting, Markov Chains and Mixing Times is more comprehensive and thus more indispensable than ever. Prepare for an eye-opening mathematical tour!

    Peter Winkler, Dartmouth College
  • The study of finite Markov chains has recently attracted increasing interest from a variety of researchers. This is the second edition of a very valuable book on the subject. The main focus is on the mixing time of Markov chains, but there is a lot of additional material.

    In this edition, the authors have taken the opportunity to add new material and bring the reader up to date on the latest research. I have used the first edition in a graduate course and I look forward to using this edition for the same purpose in the near future.

    Alan Frieze, Carnegie Mellon University
  • Praise for the first edition:

    Markov Chains and Mixing Times is a magical book, managing to be both friendly and deep. It gently introduces probabilistic techniques so that an outsider can follow. At the same time, it is the first book covering the geometric theory of Markov chains and has much that will be new to experts. It is certainly THE book that I will use to teach from. I recommend it to all comers, an amazing achievement.

    Persi Diaconis, Mary V. Sunseri Professor of Statistics and Mathematics, Stanford University
  • In this book, [the authors] rapidly take a well-prepared undergraduate to the frontiers of research. Short, focused chapters with clear logical dependencies allow readers to use the book in multiple ways.

    CHOICE Magazine
Review Copy – for publishers of book reviews
Desk Copy – for instructors who have adopted an AMS textbook for a course
Examination Copy – for faculty considering an AMS textbook for a course
Permission – for use of book, eBook, or Journal content
Accessibility – to request an alternate format of an AMS title
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