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Modern Computer Vision with PyTorch

You're reading from   Modern Computer Vision with PyTorch Explore deep learning concepts and implement over 50 real-world image applications

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Product type Paperback
Published in Nov 2020
Publisher Packt
ISBN-13 9781839213472
Length 824 pages
Edition 1st Edition
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Authors (2):
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Yeshwanth Reddy Yeshwanth Reddy
Author Profile Icon Yeshwanth Reddy
Yeshwanth Reddy
V Kishore Ayyadevara V Kishore Ayyadevara
Author Profile Icon V Kishore Ayyadevara
V Kishore Ayyadevara
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Toc

Table of Contents (25) Chapters Close

Preface 1. Section 1 - Fundamentals of Deep Learning for Computer Vision
2. Artificial Neural Network Fundamentals FREE CHAPTER 3. PyTorch Fundamentals 4. Building a Deep Neural Network with PyTorch 5. Section 2 - Object Classification and Detection
6. Introducing Convolutional Neural Networks 7. Transfer Learning for Image Classification 8. Practical Aspects of Image Classification 9. Basics of Object Detection 10. Advanced Object Detection 11. Image Segmentation 12. Applications of Object Detection and Segmentation 13. Section 3 - Image Manipulation
14. Autoencoders and Image Manipulation 15. Image Generation Using GANs 16. Advanced GANs to Manipulate Images 17. Section 4 - Combining Computer Vision with Other Techniques
18. Training with Minimal Data Points 19. Combining Computer Vision and NLP Techniques 20. Combining Computer Vision and Reinforcement Learning 21. Moving a Model to Production 22. Using OpenCV Utilities for Image Analysis 23. Other Books You May Enjoy Appendix

Implementing deep Q-learning

So far, we have learned how to build a Q-table, which provides values that correspond to a given state-action combination by replaying a game – in this case, the Frozen Lake game – over multiple episodes. However, when the state spaces are continuous (such as a snapshot of a game of Pong), the number of possible state spaces becomes huge. We will address this in this section, as well as the ones to follow, using deep Q-learning. In this section, we will learn how to estimate the Q-value of a state-action combination without a Q-table by using a neural network – hence the term deep Q-learning.

Compared to a Q-table, deep Q-learning leverages a neural network to map any given state-action (where the state can be continuous or discrete) combination to Q-values.

For this exercise, we will work on the CartPole environment in Gym. Here, our task is to balance the CartPole for as long as possible. The following image shows what the CartPole environment...

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