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15 Math Concepts Every Data Scientist Should Know

You're reading from   15 Math Concepts Every Data Scientist Should Know Understand and learn how to apply the math behind data science algorithms

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Product type Paperback
Published in Aug 2024
Publisher Packt
ISBN-13 9781837634187
Length 510 pages
Edition 1st Edition
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David Hoyle David Hoyle
Author Profile Icon David Hoyle
David Hoyle
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Table of Contents (21) Chapters Close

Preface 1. Part 1: Essential Concepts FREE CHAPTER
2. Chapter 1: Recap of Mathematical Notation and Terminology 3. Chapter 2: Random Variables and Probability Distributions 4. Chapter 3: Matrices and Linear Algebra 5. Chapter 4: Loss Functions and Optimization 6. Chapter 5: Probabilistic Modeling 7. Part 2: Intermediate Concepts
8. Chapter 6: Time Series and Forecasting 9. Chapter 7: Hypothesis Testing 10. Chapter 8: Model Complexity 11. Chapter 9: Function Decomposition 12. Chapter 10: Network Analysis 13. Part 3: Selected Advanced Concepts
14. Chapter 11: Dynamical Systems 15. Chapter 12: Kernel Methods 16. Chapter 13: Information Theory 17. Chapter 14: Non-Parametric Bayesian Methods 18. Chapter 15: Random Matrices 19. Index 20. Other Books You May Enjoy

Higher-order discrete Markov processes

First-order discrete Markov processes are extremely flexible, but there may be situations where we feel that the assumption that the transition probabilities depend only on the current state is an unrealistic one. There are plenty of situations where what happens next depends on more than just the preceding state in history. Take a sequence of words, for example. It would be a crude model that said that the probability of the next word in this sentence only depended on the immediately preceding word – see point 2 in the Notes and further reading section at the end of the chapter.

Can we improve upon this simple assumption? Can we make our transition probabilities depend upon longer stretches of history? Yes, we can. We can take the simplest case of the transition probabilities depending not only on the current state but also on the preceding state. This means the probability of a state depends upon the previous two states. For obvious...

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