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Learning Bayesian Models with R

You're reading from   Learning Bayesian Models with R Become an expert in Bayesian Machine Learning methods using R and apply them to solve real-world big data problems

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Product type Paperback
Published in Oct 2015
Publisher Packt
ISBN-13 9781783987603
Length 168 pages
Edition 1st Edition
Languages
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Author (1):
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Hari Manassery Koduvely Hari Manassery Koduvely
Author Profile Icon Hari Manassery Koduvely
Hari Manassery Koduvely
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Toc

Table of Contents (11) Chapters Close

Preface 1. Introducing the Probability Theory FREE CHAPTER 2. The R Environment 3. Introducing Bayesian Inference 4. Machine Learning Using Bayesian Inference 5. Bayesian Regression Models 6. Bayesian Classification Models 7. Bayesian Models for Unsupervised Learning 8. Bayesian Neural Networks 9. Bayesian Modeling at Big Data Scale Index

Bayesian averaging


So far, we have learned that simply minimizing the loss function (or equivalently maximizing the log likelihood function in the case of normal distribution) is not enough to develop a machine learning model for a given problem. One has to worry about models overfitting the training data, which will result in larger prediction errors on new datasets. The main advantage of Bayesian methods is that one can, in principle, get away from this problem, without using explicit regularization and different datasets for training and validation. This is called Bayesian model averaging and will be discussed here. This is one of the answers to our main question of the chapter, why Bayesian inference for machine learning?

For this, let's do a full Bayesian treatment of the linear regression problem. Since we only want to explain how Bayesian inference avoids the overfitting problem, we will skip all the mathematical derivations and state only the important results here. For more details...

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