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Machine Learning with Swift

You're reading from   Machine Learning with Swift Artificial Intelligence for iOS

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Product type Paperback
Published in Feb 2018
Publisher Packt
ISBN-13 9781787121515
Length 378 pages
Edition 1st Edition
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Authors (3):
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Jojo Moolayil Jojo Moolayil
Author Profile Icon Jojo Moolayil
Jojo Moolayil
Oleksandr Baiev Oleksandr Baiev
Author Profile Icon Oleksandr Baiev
Oleksandr Baiev
Alexander Sosnovshchenko Alexander Sosnovshchenko
Author Profile Icon Alexander Sosnovshchenko
Alexander Sosnovshchenko
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Table of Contents (14) Chapters Close

Preface 1. Getting Started with Machine Learning FREE CHAPTER 2. Classification – Decision Tree Learning 3. K-Nearest Neighbors Classifier 4. K-Means Clustering 5. Association Rule Learning 6. Linear Regression and Gradient Descent 7. Linear Classifier and Logistic Regression 8. Neural Networks 9. Convolutional Neural Networks 10. Natural Language Processing 11. Machine Learning Libraries 12. Optimizing Neural Networks for Mobile Devices 13. Best Practices

Choosing the number of clusters

If you don't know in advance how many clusters you have, then how do you choose the optimal k? This is essentially an egg-and-chicken problem. Several approaches are popular and we'll discuss one of them: the elbow method.

Do you remember those mysterious WCSS that we calculated on every iteration of k-means? This measure tells us how much points in every cluster are different from their centroid. We can calculate it for several different k values and plot the result. It usually looks somewhat similar to the plot on the following graph:

Figure 4.3: WCSS plotted against the number of clusters

This plot should remind you about the similar plots of loss functions from Chapter 3K-Nearest Neighbors Classifier. It shows how well our model fits the data. The idea of the elbow method is to choose the k value after which the result is not...

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