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The Data Science Workshop

You're reading from   The Data Science Workshop A New, Interactive Approach to Learning Data Science

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Product type Paperback
Published in Jan 2020
Publisher
ISBN-13 9781838981266
Length 818 pages
Edition 1st Edition
Languages
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Authors (5):
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Thomas Joseph Thomas Joseph
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Thomas Joseph
Andrew Worsley Andrew Worsley
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Andrew Worsley
Robert Thas John Robert Thas John
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Robert Thas John
Anthony So Anthony So
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Anthony So
Dr. Samuel Asare Dr. Samuel Asare
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Dr. Samuel Asare
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Toc

Table of Contents (18) Chapters Close

Preface 1. Introduction to Data Science in Python 2. Regression FREE CHAPTER 3. Binary Classification 4. Multiclass Classification with RandomForest 5. Performing Your First Cluster Analysis 6. How to Assess Performance 7. The Generalization of Machine Learning Models 8. Hyperparameter Tuning 9. Interpreting a Machine Learning Model 10. Analyzing a Dataset 11. Data Preparation 12. Feature Engineering 13. Imbalanced Datasets 14. Dimensionality Reduction 15. Ensemble Learning 16. Machine Learning Pipelines 17. Automated Feature Engineering

Multiple Regression Analysis

In the exercises and activity so far, we have used only one independent variable in our regression analysis. In practice, as we have seen with the Boston Housing dataset, processes and phenomena of analytic interest are rarely influenced by only one feature. To be able to model the variability to a higher level of accuracy, therefore, it is necessary to investigate all the independent variables that may contribute significantly toward explaining the variability in the dependent variable. Multiple regression analysis is the method that is used to achieve this.

Exercise 2.05: Fitting a Multiple Linear Regression Model Using the Statsmodels formula API

In this exercise, we will be using the plus operator (+) in the patsy formula string to define a linear regression model that includes more than one independent variable.

To complete this activity, run the code in the following steps in your Colab notebook:

  1. Open a new Colab notebook file and import the required packages.
    import statsmodels.formula.api as smf
    import pandas as pd
    from sklearn.model_selection import train_test_split
  2. Execute Step 2 to 11 from Exercise 2.01.
  3. Use the plus operator (+) of the Patsy formula language to define a linear model that regresses crimeRatePerCapita on pctLowerStatus, radialHighwaysAccess, medianValue_Ks, and nitrixOxide_pp10m and assign it to a variable named multiLinearModel. Use the Python line continuation symbol (\) to continue your code on a new line should you run out of space:
    multiLinearModel = smf.ols(formula=\
    'crimeRatePerCapita ~ pctLowerStatus + radialHighwaysAccess +\ medianValue_Ks + nitrixOxide_pp10m', data=train_data)
  4. Call the fit method of the model instance and assign the results of the method to a variable:
    multiLinearModResult = multiLinearModel.fit()
  5. Print a summary of the results stored the variable created in Step 3:
    print(multiLinearModResult.summary())

    The output is as follows:

Figure 2.18: A summary of multiple linear regression results

Figure 2.18: A summary of multiple linear regression results

If the exercise was correctly followed, Figure 2.18 will be the result of the analysis. In Activity 2.01, the R-squared statistic was used to assess the model for goodness of fit. When multiple independent variables are involved, the goodness of fit of the model created is assessed using the adjusted R-squared statistic.

The adjusted R-squared statistic considers the presence of the extra independent variables in the model and corrects for inflation of the goodness of fit measure of the model, which is just caused by the fact that more independent variables are being used to create the model.

The lesson we learn from this exercise is the improvement in the adjusted R-squared value in Section 1 of Figure 2.18. When only one independent variable was used to create a model that seeks to explain the variability in crimeRatePerCapita in Exercise 2.04, the R-squared value calculated was only 14.4 percent. In this exercise, we used four independent variables. The model that was created improved the adjusted R-squared statistic to 39.1 percent, an increase of 24.7 percent.

We learn that the presence of independent variables that are correlated to a dependent variable can help explain the variability in the independent variable in a model. But it is clear that a considerable amount of variability, about 60.9 percent, in the dependent variable is still not explained by our model.

There is still room for improvement if we want a model that does a good job of explaining the variability we see in crimeRatePerCapita. In Section 2 of Figure 2.18, the intercept and all the independent variables in our model are listed together with their coefficients. If we denote pctLowerStatus by x1, radialHighwaysAccess by x2, medianValue_Ks by x3 , and nitrixOxide_pp10m by x4, a mathematical expression for the model created can be written as y ≈ 0.8912+0.1028x1+0.4948x2-0.1103x3-2.1039x4.

The expression just stated defines the model created in this exercise, and it is comparable to the expression for multiple linear regression provided in Equation 2.2 earlier.

You have been reading a chapter from
The Data Science Workshop
Published in: Jan 2020
Publisher:
ISBN-13: 9781838981266
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