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The Statistics and Machine Learning with R Workshop

You're reading from   The Statistics and Machine Learning with R Workshop Unlock the power of efficient data science modeling with this hands-on guide

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Product type Paperback
Published in Oct 2023
Publisher Packt
ISBN-13 9781803240305
Length 516 pages
Edition 1st Edition
Languages
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Author (1):
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Liu Peng Liu Peng
Author Profile Icon Liu Peng
Liu Peng
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Table of Contents (20) Chapters Close

Preface 1. Part 1:Statistics Essentials
2. Chapter 1: Getting Started with R FREE CHAPTER 3. Chapter 2: Data Processing with dplyr 4. Chapter 3: Intermediate Data Processing 5. Chapter 4: Data Visualization with ggplot2 6. Chapter 5: Exploratory Data Analysis 7. Chapter 6: Effective Reporting with R Markdown 8. Part 2:Fundamentals of Linear Algebra and Calculus in R
9. Chapter 7: Linear Algebra in R 10. Chapter 8: Intermediate Linear Algebra in R 11. Chapter 9: Calculus in R 12. Part 3:Fundamentals of Mathematical Statistics in R
13. Chapter 10: Probability Basics 14. Chapter 11: Statistical Estimation 15. Chapter 12: Linear Regression in R 16. Chapter 13: Logistic Regression in R 17. Chapter 14: Bayesian Statistics 18. Index 19. Other Books You May Enjoy

Extending to multi-class classification

Many problems feature more than two classes. For example, the Standard and Poor's (S&P) bond rating includes multiple classes, such as AAA, AA, A, and more like these. Corporate client accounts in a bank are categorized into good credit, past due, overdue, doubtful, or loss. Such settings require the multinomial logistic regression model, which is a generalization of the binomial logistic regression model in the multi-class classification context. Essentially, the target variable, y, can take more than two possible discrete outcomes and allows for more than two categorical values.

Assume that the target variable can take on three values, giving y {0,1, 2}. Let us choose class 0 as the pivot value or the baseline. We will model the odds of the probabilities of the other categories (classes 1 and 2) relative to this baseline. In other words, we have the following:

 p(y = 1) _ p(y = 0)  = e z ...

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