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Python Machine Learning Cookbook

You're reading from   Python Machine Learning Cookbook Over 100 recipes to progress from smart data analytics to deep learning using real-world datasets

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Product type Paperback
Published in Mar 2019
Publisher Packt
ISBN-13 9781789808452
Length 642 pages
Edition 2nd Edition
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Authors (2):
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Giuseppe Ciaburro Giuseppe Ciaburro
Author Profile Icon Giuseppe Ciaburro
Giuseppe Ciaburro
Prateek Joshi Prateek Joshi
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Prateek Joshi
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Table of Contents (18) Chapters Close

Preface 1. The Realm of Supervised Learning FREE CHAPTER 2. Constructing a Classifier 3. Predictive Modeling 4. Clustering with Unsupervised Learning 5. Visualizing Data 6. Building Recommendation Engines 7. Analyzing Text Data 8. Speech Recognition 9. Dissecting Time Series and Sequential Data 10. Analyzing Image Content 11. Biometric Face Recognition 12. Reinforcement Learning Techniques 13. Deep Neural Networks 14. Unsupervised Representation Learning 15. Automated Machine Learning and Transfer Learning 16. Unlocking Production Issues 17. Other Books You May Enjoy

Computing regression accuracy

Now that we know how to build a regressor, it's important to understand how to evaluate the quality of a regressor as well. In this context, an error is defined as the difference between the actual value and the value that is predicted by the regressor.

Getting ready

Let's quickly take a look at the metrics that can be used to measure the quality of a regressor. A regressor can be evaluated using many different metrics. There is a module in the scikit-learn library that provides functionalities to compute all the following metrics. This is the sklearn.metrics module, which includes score functions, performance metrics, pairwise metrics, and distance computations.

How to do it...

Let's see how to compute regression accuracy in Python:

  1. Now we will use the functions available to evaluate the performance of the linear regression model we developed in the previous recipe:
import sklearn.metrics as sm
print("Mean absolute error =", round(sm.mean_absolute_error(y_test, y_test_pred), 2))
print("Mean squared error =", round(sm.mean_squared_error(y_test, y_test_pred), 2))
print("Median absolute error =", round(sm.median_absolute_error(y_test, y_test_pred), 2))
print("Explain variance score =", round(sm.explained_variance_score(y_test, y_test_pred), 2))
print("R2 score =", round(sm.r2_score(y_test, y_test_pred), 2))

The following results are returned:

Mean absolute error = 241907.27
Mean squared error = 81974851872.13
Median absolute error = 240861.94
Explain variance score = 0.98
R2 score = 0.98

An R2 score near 1 means that the model is able to predict the data very well. Keeping track of every single metric can get tedious, so we pick one or two metrics to evaluate our model. A good practice is to make sure that the mean squared error is low and the explained variance score is high.

How it works...

A regressor can be evaluated using many different metrics, such as the following:

  • Mean absolute error: This is the average of absolute errors of all the data points in the given dataset.
  • Mean squared error: This is the average of the squares of the errors of all the data points in the given dataset. It is one of the most popular metrics out there!
  • Median absolute error: This is the median of all the errors in the given dataset. The main advantage of this metric is that it's robust to outliers. A single bad point in the test dataset wouldn't skew the entire error metric, as opposed to a mean error metric.
  • Explained variance score: This score measures how well our model can account for the variation in our dataset. A score of 1.0 indicates that our model is perfect.
  • R2 score: This is pronounced as R-squared, and this score refers to the coefficient of determination. This tells us how well the unknown samples will be predicted by our model. The best possible score is 1.0, but the score can be negative as well.

There's more...

The sklearn.metrics module contains a series of simple functions that measure prediction error:

  • Functions ending with _score return a value to maximize; the higher the better
  • Functions ending with _error or _loss return a value to minimize; the lower the better

See also

You have been reading a chapter from
Python Machine Learning Cookbook - Second Edition
Published in: Mar 2019
Publisher: Packt
ISBN-13: 9781789808452
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