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You're reading from Hands-On Machine Learning with TensorFlow.js A guide to building ML applications integrated with web technology using the TensorFlow.js library

Product type Paperback

Published in Nov 2019

Publisher Packt

ISBN-13 9781838821739

Length 296 pages

Edition 1st Edition

Languages

Python

Tools

TensorFlow

Concepts

Machine Learning

Author (1):

Kai Sasaki

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Table of Contents (17) Chapters

Preface

1. Section 1: The Rationale of Machine Learning and the Usage of TensorFlow.js

2. Machine Learning for the Web FREE CHAPTER

3. Importing Pretrained Models into TensorFlow.js

4. TensorFlow.js Ecosystem

5. Section 2: Real-World Applications of TensorFlow.js

6. Polynomial Regression

7. Classification with Logistic Regression

8. Unsupervised Learning

9. Sequential Data Analysis

10. Dimensionality Reduction

11. Solving the Markov Decision Process

12. Section 3: Productionizing Machine Learning Applications with TensorFlow.js

13. Deploying Machine Learning Applications

14. Tuning Applications to Achieve High Performance

15. Future Work Around TensorFlow.js

16. Other Books You May Enjoy

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Summary

In this chapter, we learned that the clustering algorithm is a type of unsupervised learning and how the K-means and EM algorithms work. Since the EM algorithm is a general version of K-means, we are now capable of applying the EM algorithm to more extensive use cases. Practically, the EM algorithm requires intensive computation power, and so we tend to use K-means to estimate the structure of the data points roughly first and run the EM algorithm later. Combining these two algorithms is a common pattern to follow when we want to complete any clustering task.

We also demonstrated how K-means can be implemented using TensorFlow.js. We did this by showing a clustering example in a two-dimensional space. This example illustrated that data points from multiple Gaussian distributions can be segmented into clusters that are represented by centroids. While we implemented a K...

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Authors (1)

Sasaki

Kai Sasaki works as a software engineer at Treasure Data. He engages in developing largescale distributed systems to make data valuable. His passion for creating artificial intelligence by processing large-scale data led him to the field of machine learning. He is one of the initial contributors to TensorFlow.js and keeps working to add new operators that are required for new types of machine learning models. Because of his work, he received the Google Open Source Peer Bonus in 2018.

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