美國數學會經典影印系列：Markov鏈與混合時間（影印版）

《美國數學會經典影印系列：Markov鏈與混合時間（影印版）》是對Markov鏈理論的現代處理方法的導引，該方法的主要目標是確定一個Markov鏈收斂到作為態空間體積和幾何之函式的平穩分布的收斂速率。作者發展了估計收斂時間的關鍵工具，包括耦合、強平穩時間以及譜方法；一有可能，便強調機率論式的方法。

　《美國數學會經典影印系列：Markov鏈與混合時間（影印版）》包括了許多例題並對統計力學的中心模型給出了簡短介紹；還講述了網路上的隨機遊動，包括擊中和掩蓋時間，以及對洗牌的各種方法的分析。至於預備知識，作者假定了對機率論的適度了解以及大學水平的線性代數。

　《美國數學會經典影印系列：Markov鏈與混合時間（影印版）》打算將這個活躍的研究領域的激情帶給大範圍的客群。

Preface

Overview

For the Reader

For the Instructor

For the Expert

Acknowledgements

Part Ⅰ： Basic Methods and Examples

Chapter 1． Introduction to Finite Markov Chains

1．1． Finite Markov Chains

1．2． Random Mapping Representation

1．3． Irreducibility and Aperiodicity

1．4． Random Walks on Graphs

1．5． Stationary Distributions

1．6． Reversibility and Time Reversals

1．7． Classifying the States of a Markov Chain

Exercises

Notes

Chapter 2． Classical （and Useful） Markov Chains

2．1． Gambler's Ruin

2．2． Coupon Collecting

2．3． The Hypercube and the Ehrenfest Urn Model

2．4． The Polya Urn Model

2．5． Birth-and-Death Chains

2．6． Random Walks on Groups

2．7． Random Walks on Z and Reflection Principles

Exercises

Notes

Chapter 3． Markov Chain Monte Carlo： Metropolis and Glauber Chains

3．1． Introduction

3．2． Metropolis Chains

3．3． Glauber Dynamics

Exercises

Notes

Chapter 4． Introduction to Markov Chain Mixing

4．1． Total Variation Distance

4．2． Coupling and Total Variation Distance

4．3． The Convergence Theorem

4．4． Standardizing Distance from Stationarity

4．5． Mixing Time

4．6． Mixing and Time Reversal

4．7． Ergodic Theorem*

Exercises

Notes

Chapter 5． Coupling

5．1． Definition

5．2． Bounding Total．Variation Distance

5．3． Examples

5．4． Grand Couplings

Exercises

Notes

Chapter 6． Strong Stationary Times

6．1． Top-to-Random Shuffle

6．2． Definitions

6．3． Achieving Equilibrium

6．4． Strong Stationary Times and Bounding Distance

6．5． Examples

6．6． Stationary Times and Cesaro Mixing Time

Exercises

Notes

Chapter 7． Lower Bounds on Mixing Times

7．1． Counting and Diameter Bounds

7．2． Bottleneck Ratio

7．3． Distinguishing Statistics

7．4． Examples

Exercises

Notes

Chapter 8． The Symmetric Group and Shuffling Cards

8．1． The Symmetric Group

8．2． Random Transpositions

8．3． Riffle Shuffles

Exercises

Notes

Chapter 9． Random Walks on Networks

9．1． Networks and Reversible Markov Chains

9．2． Harmonic Functions

9．3． Voltages and Current Flows

9．4． Effective Resistance

9．5． Escape Probabilities on a Square

Exercises

Notes

Chapter 10． Hitting Times

10．1． Definition

10．2． Random Target Times

10．3． Commute Time

10．4． Hitting Times for the Torus

10．5． Bounding Mixing Times via Hitting Times

10．6． Mixing for the Walk on Two Glued Graphs

Exercises

Notes

Chapter 11． Cover Times

11．1． Cover Times

11．2． The Matthews Method

11．3． Applications of the Matthews Method

Exercises

Notes

Chapter 12． Eigenvalues

12．1． The Spectral Representation of a Reversible Transition Matrix

12．2． The Relaxation Time

12．3． Eigenvalues and Eigenfunctions of Some Simple Random Walks

12．4． Product Chains

12．5． An l2 Bound

12．6． Time Averages

Exercises

Notes

Part Ⅱ： The Plot Thickens

Chapter 13． Eigenfunctions and Comparison of Chains

13．1． Bounds on Spectral Gap via Contractions

13．2． Wilson's Method for Lower Bounds

13．3． The Dirichlet Form and the Bottleneck Ratio

13．4． Simple Comparison of Markov Chains

13．5． The Path Method

13．6． Expander Graphs

Exercises

Notes

Chapter 14． The Transportation Metric and Path Coupling

14．1． The Transportation Metric

14．2． Path Coupling

14．3． Fast Mixing for Colorings

14．4． Approximate Counting

Exercises

Notes

Chapter 15． The Ising Model

15．1． Fast Mixing at High Temperature

15．2． The Complete Graph

15．3． The Cycle

15．4． The Tree

15．5． Block Dynamics

15．6． Lower Bound for Ising on Square

Exercises

Notes

Chapter 16． From Shuffling Cards to Shuffling Genes

16．1． Random Adjacent Transpositions

16．2． Shuffling Genes

Exercise

Notes

Chapter 17． Martingales and Evolving Sets

17．1． Definition and Examples

17．2． Optional Stopping Theorem

17．3． Applications

17．4． Evolving Sets

17．5． A General Bound on Return Probabilities

17．6． Harmonic Fhnctions and the Doob h-Transform

17．7． Strong Stationary Times from Evolving Sets

Exercises

Notes

Chapter 18． The Cutoff Phenomenon

18．1． Definition

18．2． Examples of Cutoff

18．3． A Necessary Condition for Cutoff

18．4． Separation Cutoff

Exercise

Notes

Chapter 19． Lamplighter Walks

19．1． Introduction

19．2． Relaxation Time Bounds

19．3． Mixing Time Bounds

19．4． Examples

Notes

Chapter 20． Continuous-Time Chains

20．1． Definitions

20．2． Continuous-Time Mixing

20．3． Spectral Gap

20．4． Product Chains

Exercises

Notes

Chapter 21． Countable State Space Chains

21．1． Recurrence and Transience

21．2． Infinite Networks

21．3． Positive Recurrence and Convergence

21．4． Null Recurrence and Convergence

21．5． Bounds on Return Probabilities

Exercises

Notes

Chapter 22． Coupling from the Past

22．1． Introduction

22．2． Monotone CFTP

22．3． Perfect Sampling via Coupling from the Past

22．4． The Hardcore Model

22．5． Random State of an Unknown Markov Chain

Exercise

Notes

Chapter 23． Open Problems

23．1． The Ising Model

23．2． Cutoff

23．3． Other Problems

Appendix A． Background Material

A．1． Probability Spaces and Random Variables

A．2． Metric Spaces

A．3． Linear Algebra

A．4． Miscellaneous

Appendix B． Introduction to Simulation

B．1． What Is Simulation?

B．2． Von Neumann Unbiasing

B．3． Simulating Discrete Distributions and Sampling

B．4． Inverse Distribution Function Method

B．5． Acceptance-Rejection Sampling

B．6． Simulating Normal Random Variables

B．7． Sampling from the Simplex

B．8． About Random Numbers

B．9． Sampling from Large Sets

Exercises

Notes

Appendix C． Solutions to Selected Exercises

Bibliography

Notation Index

Index