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Deep Learning with TensorFlow and Keras – 3rd edition

You're reading from   Deep Learning with TensorFlow and Keras – 3rd edition Build and deploy supervised, unsupervised, deep, and reinforcement learning models

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Product type Paperback
Published in Oct 2022
Publisher Packt
ISBN-13 9781803232911
Length 698 pages
Edition 3rd Edition
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Authors (3):
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Sujit Pal Sujit Pal
Author Profile Icon Sujit Pal
Sujit Pal
Antonio Gulli Antonio Gulli
Author Profile Icon Antonio Gulli
Antonio Gulli
Dr. Amita Kapoor Dr. Amita Kapoor
Author Profile Icon Dr. Amita Kapoor
Dr. Amita Kapoor
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Table of Contents (23) Chapters Close

Preface 1. Neural Network Foundations with TF 2. Regression and Classification FREE CHAPTER 3. Convolutional Neural Networks 4. Word Embeddings 5. Recurrent Neural Networks 6. Transformers 7. Unsupervised Learning 8. Autoencoders 9. Generative Models 10. Self-Supervised Learning 11. Reinforcement Learning 12. Probabilistic TensorFlow 13. An Introduction to AutoML 14. The Math Behind Deep Learning 15. Tensor Processing Unit 16. Other Useful Deep Learning Libraries 17. Graph Neural Networks 18. Machine Learning Best Practices 19. TensorFlow 2 Ecosystem 20. Advanced Convolutional Neural Networks 21. Other Books You May Enjoy
22. Index

Common graph layers

All the graph layers that we discuss in this section use some variation of the graph convolution operation described above. Contributors to graph libraries such as DGL provide prebuilt versions of many of these layers within a short time of it being proposed in an academic paper, so you will realistically never have to implement one of these. The information here is mainly for understanding how things work under the hood.

Graph convolution network

The Graph Convolution Network (GCN) is the graph convolution layer proposed by Kipf and Welling [1]. It was originally presented as a scalable approach for semi-supervised learning on graph-structured data. They describe the GCN as an operation over the node feature vectors X and the adjacency matrix A of the underlying graph and point out that this can be exceptionally powerful when the information in A is not present in the data X, such as citation links between documents in a citation network, or relations...

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