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Python Reinforcement Learning

You're reading from   Python Reinforcement Learning Solve complex real-world problems by mastering reinforcement learning algorithms using OpenAI Gym and TensorFlow

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Product type Course
Published in Apr 2019
Publisher Packt
ISBN-13 9781838649777
Length 496 pages
Edition 1st Edition
Languages
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Authors (4):
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Yang Wenzhuo Yang Wenzhuo
Author Profile Icon Yang Wenzhuo
Yang Wenzhuo
Sean Saito Sean Saito
Author Profile Icon Sean Saito
Sean Saito
Sudharsan Ravichandiran Sudharsan Ravichandiran
Author Profile Icon Sudharsan Ravichandiran
Sudharsan Ravichandiran
Rajalingappaa Shanmugamani Rajalingappaa Shanmugamani
Author Profile Icon Rajalingappaa Shanmugamani
Rajalingappaa Shanmugamani
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Toc

Table of Contents (27) Chapters Close

Title Page
About Packt
Contributors
Preface
1. Introduction to Reinforcement Learning FREE CHAPTER 2. Getting Started with OpenAI and TensorFlow 3. The Markov Decision Process and Dynamic Programming 4. Gaming with Monte Carlo Methods 5. Temporal Difference Learning 6. Multi-Armed Bandit Problem 7. Playing Atari Games 8. Atari Games with Deep Q Network 9. Playing Doom with a Deep Recurrent Q Network 10. The Asynchronous Advantage Actor Critic Network 11. Policy Gradients and Optimization 12. Balancing CartPole 13. Simulating Control Tasks 14. Building Virtual Worlds in Minecraft 15. Learning to Play Go 16. Creating a Chatbot 17. Generating a Deep Learning Image Classifier 18. Predicting Future Stock Prices 19. Capstone Project - Car Racing Using DQN 20. Looking Ahead 1. Assessments 2. Other Books You May Enjoy Index

Implementation of A3C


We will now look at how to implement A3C using Python and TensorFlow. Here, the policy network and value network share the same feature representation. We implement two kinds of policies: one is based on the CNN architecture used in DQN, and the other is based on LSTM.

We implement the FFPolicy class for the policy based on CNN:

class FFPolicy:

    def __init__(self, input_shape=(84, 84, 4), n_outputs=4, network_type='cnn'):

        self.width = input_shape[0]
        self.height = input_shape[1]
        self.channel = input_shape[2]
        self.n_outputs = n_outputs
        self.network_type = network_type
        self.entropy_beta = 0.01

        self.x = tf.placeholder(dtype=tf.float32, 
                                shape=(None, self.channel, self.width, self.height))
        self.build_model()

The constructor requires three arguments:

  1.  input_shape
  2. n_outputs
  3. network_type

 

input_shape is the size of the input image. After data preprocessing, the input is an 84x84x4...

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