You're reading from Interpretable Machine Learning with Python Learn to build interpretable high-performance models with hands-on real-world examples

Product type Paperback

Published in Mar 2021

Publisher Packt

ISBN-13 9781800203907

Length 736 pages

Edition 1st Edition

Languages

Python

Tools

TensorFlow

Concepts

Machine Learning

Author (1):

Serg Masís

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Table of Contents (19) Chapters

Preface

1. Section 1: Introduction to Machine Learning Interpretation

2. Chapter 1: Interpretation, Interpretability, and Explainability; and Why Does It All Matter? FREE CHAPTER

3. Chapter 2: Key Concepts of Interpretability

4. Chapter 3: Interpretation Challenges

5. Section 2: Mastering Interpretation Methods

6. Chapter 4: Fundamentals of Feature Importance and Impact

7. Chapter 5: Global Model-Agnostic Interpretation Methods

8. Chapter 6: Local Model-Agnostic Interpretation Methods

9. Chapter 7: Anchor and Counterfactual Explanations

10. Chapter 8: Visualizing Convolutional Neural Networks

11. Chapter 9: Interpretation Methods for Multivariate Forecasting and Sensitivity Analysis

12. Section 3:Tuning for Interpretability

13. Chapter 10: Feature Selection and Engineering for Interpretability

14. Chapter 11: Bias Mitigation and Causal Inference Methods

15. Chapter 12: Monotonic Constraints and Model Tuning for Interpretability

16. Chapter 13: Adversarial Robustness

17. Chapter 14: What's Next for Machine Learning Interpretability?

18. Other Books You May Enjoy

Implementing model constraints

We will discuss next how to implement constraints first with XGBoost and all popular tree ensembles, for that matter, because the parameters are named the same (see Figure 12.12). Then, we will do so with TensorFlow Lattice. But before we move forward with any of that, let's remove race from the data, as follows:

X_train_con = X_train.drop(['race'], axis=1).copy()
X_test_con = X_test.drop(['race'], axis=1).copy()

Now, with race out of the picture, the model left to its own devices may still have some bias. However, the feature engineering we performed and the constraints we will place can help align the model against them, given the double standards we found in Chapter 7, Anchor and Counterfactual Explanations. That being said, the resulting model might perform worse against the test data. There are two reasons for this, outlined here:

Loss of information: Race, especially through interaction with other features...

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You're reading from Interpretable Machine Learning with Python Learn to build interpretable high-performance models with hands-on real-world examples

Table of Contents (19) Chapters

Implementing model constraints

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Table of Contents (19) Chapters

Implementing model constraints

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