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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

Calculating the Distance to the Centroid

We've talked a lot about similarities between data points in the previous sections, but we haven't really defined what this means. You have probably guessed that it has something to do with how close or how far observations are from each other. You are heading in the right direction. It has to do with some sort of distance measure between two points. The one used by k-means is called squared Euclidean distance and its formula is:

Figure 5.32: The squared Euclidean distance formula

If you don't have a statistical background, this formula may look intimidating, but it is actually very simple. It is the sum of the squared difference between the data coordinates. Here, x and y are two data points and the index, i, represents the number of coordinates. If the data has two dimensions, i equals 2. Similarly, if there are three dimensions, then i will be 3.

Let's apply this formula to the ATO dataset....

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