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Python Machine Learning by Example

You're reading from   Python Machine Learning by Example Build intelligent systems using Python, TensorFlow 2, PyTorch, and scikit-learn

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Product type Paperback
Published in Oct 2020
Publisher Packt
ISBN-13 9781800209718
Length 526 pages
Edition 3rd Edition
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Author (1):
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Yuxi (Hayden) Liu Yuxi (Hayden) Liu
Author Profile Icon Yuxi (Hayden) Liu
Yuxi (Hayden) Liu
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Table of Contents (17) Chapters Close

Preface 1. Getting Started with Machine Learning and Python 2. Building a Movie Recommendation Engine with Naïve Bayes FREE CHAPTER 3. Recognizing Faces with Support Vector Machine 4. Predicting Online Ad Click-Through with Tree-Based Algorithms 5. Predicting Online Ad Click-Through with Logistic Regression 6. Scaling Up Prediction to Terabyte Click Logs 7. Predicting Stock Prices with Regression Algorithms 8. Predicting Stock Prices with Artificial Neural Networks 9. Mining the 20 Newsgroups Dataset with Text Analysis Techniques 10. Discovering Underlying Topics in the Newsgroups Dataset with Clustering and Topic Modeling 11. Machine Learning Best Practices 12. Categorizing Images of Clothing with Convolutional Neural Networks 13. Making Predictions with Sequences Using Recurrent Neural Networks 14. Making Decisions in Complex Environments with Reinforcement Learning 15. Other Books You May Enjoy
16. Index

Training an RNN model

To explain how we optimize the weights (parameters) of an RNN, we first annotate the weights and the data on the network, as follows:

  • U denotes the weights connecting the input layer and the hidden layer.
  • V denotes the weights between the hidden layer and the output layer. Note here that we use only one recurrent layer for simplicity.
  • W denotes the weights of the recurrent layer; that is, the feedback layer.
  • xt denotes the inputs at time step t.
  • st denotes the hidden state at time step t.
  • ht denotes the outputs at time step t.

Next, we unfold the simple RNN model over three time steps: t − 1, t, and t + 1, as follows:

Figure 13.9: Unfolding a recurrent layer

We describe the mathematical relationships between the layers as follows:

  • We let a denote the activation function for the hidden layer. In RNNs, we usually choose tanh or ReLU as the activation function for the hidden layers...
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