Image Analysis, Random Fields and Markov Chain Monte Carlo Methods: A Mathematical Introduction / Edition 2

Image Analysis, Random Fields and Markov Chain Monte Carlo Methods: A Mathematical Introduction / Edition 2

by Gerhard Winkler
Image Analysis, Random Fields and Markov Chain Monte Carlo Methods: A Mathematical Introduction / Edition 2
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ISBN-10:
3540442138
ISBN-13:
9783540442134
Pub. Date:
01/17/2003
Publisher:
Springer Berlin Heidelberg
ISBN-10:
3540442138
ISBN-13:
9783540442134
Pub. Date:
01/17/2003
Publisher:
Springer Berlin Heidelberg
Image Analysis, Random Fields and Markov Chain Monte Carlo Methods: A Mathematical Introduction / Edition 2

Image Analysis, Random Fields and Markov Chain Monte Carlo Methods: A Mathematical Introduction / Edition 2

by Gerhard Winkler

Overview

This second edition of G. Winkler's successful book on random field approaches to image analysis, related Markov Chain Monte Carlo methods, and statistical inference with emphasis on Bayesian image analysis concentrates more on general principles and models and less on details of concrete applications. Addressed to students and scientists from mathematics, statistics, physics, engineering, and computer science, it will serve as an introduction to the mathematical aspects rather than a survey. Basically no prior knowledge of mathematics or statistics is required.
The second edition is in many parts completely rewritten and improved, and most figures are new. The topics of exact sampling and global optimization of likelihood functions have been added.

Product Details

ISBN-13: 9783540442134
Publisher: Springer Berlin Heidelberg
Publication date: 01/17/2003
Series: Stochastic Modelling and Applied Probability , #27
Edition description: 2nd ed. 2003
Pages: 387
Product dimensions: 6.10(w) x 9.25(h) x 0.24(d)

Table of Contents

I. Bayesian Image Analysis: Introduction.- 1. The Bayesian Paradigm.- 2. Cleaning Dirty Pictures.- 3. Finite Random Fields.- II. The Gibbs Sampler and Simulated Annealing.- 4. Markov Chains: Limit Theorems.- 5. Gibbsian Sampling and Annealing.- 6. Cooling Schedules.- III. Variations of the Gibbs Sampler.- 7. Gibbsian Sampling and Annealing Revisited.- 8. Partially Parallel Algorithms.- 9. Synchronous Algorithms.- IV. Metropolis Algorithms and Spectral Methods.- 10. Metropolis Algorithms.- 11. The Spectral Gap and Convergence of Markov Chains.- 12. Eigenvalues, Sampling, Variance Reduction.- 13. Continuous Time Processes.- V. Texture Analysis.- 14. Partitioning.- 15. Random Fields and Texture Models.- 16. Bayesian Texture Classification.- VI. Parameter Estimation.- 17. Maximum Likelihood Estimation.- 18. Consistency of Spatial ML Estimators.- 19. Computation of Full ML Estimators.- VII. Supplement.- 20. A Glance at Neural Networks.- 21. Three Applications.- VIII. Appendix.- A. Simulation of Random Variables.- A.1 Pseudorandom Numbers.- A.2 Discrete Random Variables.- A.3 Special Distributions.- B. Analytical Tools.- B.1 Concave Functions.- B.2 Convergence of Descent Algorithms.- B.3 A Discrete Gronwall Lemma.- B.4 A Gradient System.- C. Physical Imaging Systems.- D. The Software Package AntslnFields.- References.- Symbols.
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