Information theory, inference, and learning algorithms

By: Mackay, C.J. DavidMaterial type: TextTextPublication details: Cambridge, U.K. [c2003]Description: 628 pISBN: 9780521670517Subject(s): General ScienceLOC classification: Q360
Contents:
1. Introduction to information theory 2. Probability, entropy and inference 3. More about inference Part I. Data Compression: 4. The source coding theorem 5. Symbol codes 6. Stream codes 7. Codes for integers Part II. Noisy-Channel Coding: 8. Dependent random variables 9. Communication over a noisy channel 10. The noisy-channel coding theorem 11. Error-correcting codes and real channels Part III. Further Topics in Information Theory: 12. Hash codes 13. Binary codes 14. Very good linear codes exist 15. Further exercises on information theory 16. Message passing 17. Constrained noiseless channels 18. Crosswords and codebreaking 19. Why have sex? Information acquisition and evolution Part IV. Probabilities and Inference: 20. An example inference task: clustering 21. Exact inference by complete enumeration 22. Maximum likelihood and clustering 23. Useful probability distributions 24. Exact marginalization 25. Exact marginalization in trellises 26. Exact marginalization in graphs 27. Laplace's method 28. Model comparison and Occam's razor 29. Monte Carlo methods 30. Efficient Monte Carlo methods 31. Ising models 32. Exact Monte Carlo sampling 33. Variational methods 34. Independent component analysis 35. Random inference topics 36. Decision theory 37. Bayesian inference and sampling theory Part V. Neural Networks: 38. Introduction to neural networks 39. The single neuron as a classifier 40. Capacity of a single neuron 41. Learning as inference 42. Hopfield networks 43. Boltzmann machines 44. Supervised learning in multilayer networks 45. Gaussian processes 46. Deconvolution Part VI. Sparse Graph Codes 47. Low-density parity-check codes 48. Convolutional codes and turbo codes 49. Repeat-accumulate codes 50. Digital fountain codes
Summary: Information theory and inference, often taught separately, are here united in one entertaining textbook. These topics lie at the heart of many exciting areas of contemporary science and engineering - communication, signal processing, data mining, machine learning, pattern recognition, computational neuroscience, bioinformatics, and cryptography. This textbook introduces theory in tandem with applications. Information theory is taught alongside practical communication systems, such as arithmetic coding for data compression and sparse-graph codes for error-correction. A toolbox of inference techniques, including message-passing algorithms, Monte Carlo methods, and variational approximations, are developed alongside applications of these tools to clustering, convolutional codes, independent component analysis, and neural networks. The final part of the book describes the state of the art in error-correcting codes, including low-density parity-check codes, turbo codes, and digital fountain codes -- the twenty-first century standards for satellite communications, disk drives, and data broadcast. Richly illustrated, filled with worked examples and over 400 exercises, some with detailed solutions, David MacKay's groundbreaking book is ideal for self-learning and for undergraduate or graduate courses. Interludes on crosswords, evolution, and sex provide entertainment along the way. In sum, this is a textbook on information, communication, and coding for a new generation of students, and an unparalleled entry point into these subjects for professionals in areas as diverse as computational biology, financial engineering, and machine learning.
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Item type Current library Collection Shelving location Call number Status Notes Date due Barcode Item holds
Book Book ICTS
General Sc Rack No 3 Q360 (Browse shelf (Opens below)) Available Billno:IN 00242; Billdate: 2018-04-13 01114
Total holds: 0

1. Introduction to information theory
2. Probability, entropy and inference
3. More about inference

Part I. Data Compression:
4. The source coding theorem
5. Symbol codes
6. Stream codes
7. Codes for integers

Part II. Noisy-Channel Coding:
8. Dependent random variables
9. Communication over a noisy channel
10. The noisy-channel coding theorem
11. Error-correcting codes and real channels

Part III. Further Topics in Information Theory:
12. Hash codes
13. Binary codes
14. Very good linear codes exist
15. Further exercises on information theory
16. Message passing
17. Constrained noiseless channels
18. Crosswords and codebreaking
19. Why have sex? Information acquisition and evolution

Part IV. Probabilities and Inference:
20. An example inference task: clustering
21. Exact inference by complete enumeration
22. Maximum likelihood and clustering
23. Useful probability distributions
24. Exact marginalization
25. Exact marginalization in trellises
26. Exact marginalization in graphs
27. Laplace's method
28. Model comparison and Occam's razor
29. Monte Carlo methods
30. Efficient Monte Carlo methods
31. Ising models
32. Exact Monte Carlo sampling
33. Variational methods
34. Independent component analysis
35. Random inference topics
36. Decision theory
37. Bayesian inference and sampling theory

Part V. Neural Networks:
38. Introduction to neural networks
39. The single neuron as a classifier
40. Capacity of a single neuron
41. Learning as inference
42. Hopfield networks
43. Boltzmann machines
44. Supervised learning in multilayer networks
45. Gaussian processes
46. Deconvolution

Part VI. Sparse Graph Codes
47. Low-density parity-check codes
48. Convolutional codes and turbo codes
49. Repeat-accumulate codes
50. Digital fountain codes

Information theory and inference, often taught separately, are here united in one entertaining textbook. These topics lie at the heart of many exciting areas of contemporary science and engineering - communication, signal processing, data mining, machine learning, pattern recognition, computational neuroscience, bioinformatics, and cryptography. This textbook introduces theory in tandem with applications. Information theory is taught alongside practical communication systems, such as arithmetic coding for data compression and sparse-graph codes for error-correction. A toolbox of inference techniques, including message-passing algorithms, Monte Carlo methods, and variational approximations, are developed alongside applications of these tools to clustering, convolutional codes, independent component analysis, and neural networks. The final part of the book describes the state of the art in error-correcting codes, including low-density parity-check codes, turbo codes, and digital fountain codes -- the twenty-first century standards for satellite communications, disk drives, and data broadcast. Richly illustrated, filled with worked examples and over 400 exercises, some with detailed solutions, David MacKay's groundbreaking book is ideal for self-learning and for undergraduate or graduate courses. Interludes on crosswords, evolution, and sex provide entertainment along the way. In sum, this is a textbook on information, communication, and coding for a new generation of students, and an unparalleled entry point into these subjects for professionals in areas as diverse as computational biology, financial engineering, and machine learning.

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