Coding Ockham's Razor [electronic resource] / by Lloyd Allison.

Allison, Lloyd author., Author,
1st ed. 2018.
Cham : Springer International Publishing : Imprint: Springer, 2018.
Computer Science (Springer-11645)
1 online resource (XIV, 175 pages) : 46 illustrations
Data structures (Computer science).
Artificial intelligence.
Local subjects:
Data Structures. (search)
Statistics and Computing/Statistics Programs. (search)
Artificial Intelligence. (search)
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This book explores inductive inference using the minimum message length (MML) principle, a Bayesian method which is a realisation of Ockham's Razor based on information theory. Accompanied by a library of software, the book can assist an applications programmer, student or researcher in the fields of data analysis and machine learning to write computer programs based upon this principle. MML inference has been around for 50 years and yet only one highly technical book has been written about the subject. The majority of research in the field has been backed by specialised one-off programs but this book includes a library of general MML-based software, in Java. The Java source code is available under the GNU GPL open-source license. The software library is documented using Javadoc which produces extensive cross referenced HTML manual pages. Every probability distribution and statistical model that is described in the book is implemented and documented in the software library. The library may contain a component that directly solves a reader's inference problem, or contain components that can be put together to solve the problem, or provide a standard interface under which a new component can be written to solve the problem. This book will be of interest to application developers in the fields of machine learning and statistics as well as academics, postdocs, programmers and data scientists. It could also be used by third year or fourth year undergraduate or postgraduate students.
1 Introduction
2 Discrete
3 Integers
4 Continuous
5 Function-Models
6 Multivariate
7 Mixture Models
8 Function-Models 2
9 Vectors
10 Linear Regression
11 Graphs
12 Bits and Pieces
13 An Implementation
14 Glossary.
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Printed edition:
Printed edition:
9783319764320 (Printed edition)
9783319764344 (Printed edition)
9783030094881 (Printed edition)
Publisher Number:
10.1007/978-3-319-76433-7 doi
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Restricted for use by site license.
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