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You're reading from Hands-On Ensemble Learning with Python Build highly optimized ensemble machine learning models using scikit-learn and Keras

Product type Paperback

Published in Jul 2019

Publisher Packt

ISBN-13 9781789612851

Length 298 pages

Edition 1st Edition

Languages

Python

Tools

Keras

Concepts

Machine Learning

Authors (2):

Konstantinos G. Margaritis

George Kyriakides

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Table of Contents (20) Chapters

Preface

1. Section 1: Introduction and Required Software Tools

2. A Machine Learning Refresher FREE CHAPTER

3. Getting Started with Ensemble Learning

4. Section 2: Non-Generative Methods

5. Voting

6. Stacking

7. Section 3: Generative Methods

8. Bagging

9. Boosting

10. Random Forests

11. Section 4: Clustering

12. Clustering

13. Section 5: Real World Applications

14. Classifying Fraudulent Transactions

15. Predicting Bitcoin Prices

16. Evaluating Sentiment on Twitter

17. Recommending Movies with Keras

18. Clustering World Happiness

19. Another Book You May Enjoy

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Summary

In this chapter, we discussed Random Forests, an ensemble method utilizing decision trees as its base learners. We presented two basic methods of constructing the trees: the conventional Random Forests approach, where a subset of features is considered at each split, as well as Extra Trees, where the split points are chosen almost randomly. We discussed the basic characteristics of the ensemble method. Furthermore, we presented regression and classification examples using the scikit-learn implementations of Random Forests and Extra Trees. The key points of this chapter that summarize its contents are provided below.

Random Forests use bagging in order to create train sets for their base learners. At each node, each tree considers only a subset of the available features and computes the optimal feature/split point combination. The number of features to consider at each...

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Authors (2)

Kyriakides

George Kyriakides is a Ph.D. researcher, studying distributed neural architecture search. His interests and experience include automated generation and optimization of predictive models for a wide array of applications, such as image recognition, time series analysis, and financial applications. He holds an M.Sc. in computational methods and applications, and a B.Sc. in applied informatics, both from the University of Macedonia, Thessaloniki, Greece.

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Margaritis

Konstantinos G. Margaritis has been a teacher and researcher in computer science for more than 30 years. His research interests include parallel and distributed computing as well as computational intelligence and machine learning. He holds an M.Eng. in electrical engineering (Aristotle University of Thessaloniki, Greece), as well as an M.Sc. and a Ph.D. in computer science (Loughborough University, UK). He is a professor at the Department of Applied Informatics, University of Macedonia, Thessaloniki, Greece.

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