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Mastering Machine Learning with scikit-learn

You're reading from   Mastering Machine Learning with scikit-learn Apply effective learning algorithms to real-world problems using scikit-learn

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Product type Paperback
Published in Jul 2017
Publisher
ISBN-13 9781788299879
Length 254 pages
Edition 2nd Edition
Languages
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Author (1):
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Gavin Hackeling Gavin Hackeling
Author Profile Icon Gavin Hackeling
Gavin Hackeling
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Table of Contents (15) Chapters Close

Preface 1. The Fundamentals of Machine Learning 2. Simple Linear Regression FREE CHAPTER 3. Classification and Regression with k-Nearest Neighbors 4. Feature Extraction 5. From Simple Linear Regression to Multiple Linear Regression 6. From Linear Regression to Logistic Regression 7. Naive Bayes 8. Nonlinear Classification and Regression with Decision Trees 9. From Decision Trees to Random Forests and Other Ensemble Methods 10. The Perceptron 11. From the Perceptron to Support Vector Machines 12. From the Perceptron to Artificial Neural Networks 13. K-means 14. Dimensionality Reduction with Principal Component Analysis

Stacking

Stacking is an approach to creating ensembles; it uses a meta-estimator to combine the predictions of base estimators. Sometimes called blending, stacking adds a second supervised learning problem: the meta-estimator must be trained to use the predictions of the base estimators to predict the value of the response variable. To train a stacked ensemble, first use the training set to train the base estimators. Unlike bagging and boosting, stacking can use different types of base estimators; a random forest could be combined with a logistic regression classifier, for example. The base estimators' predictions and the ground truth are then used as the training set for the meta-estimator. The meta-estimator can learn to combine the base estimators' predictions in more complex ways than voting or averaging. scikit-learn does not implement a stacking meta...

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