Explore Products

Best Sellers

New Releases

Books

Videos

Audiobooks

Learning Hub

Conferences

Free Learning

You're reading from Reinforcement Learning Algorithms with Python Learn, understand, and develop smart algorithms for addressing AI challenges

Product type Paperback

Published in Oct 2019

Publisher Packt

ISBN-13 9781789131116

Length 366 pages

Edition 1st Edition

Languages

Python

Tools

OpenAI Gym

Concepts

Reinforcement Learning

Author (1):

Andrea Lonza

View More author details

Table of Contents (19) Chapters

Preface

1. Section 1: Algorithms and Environments FREE CHAPTER

2. The Landscape of Reinforcement Learning

3. Implementing RL Cycle and OpenAI Gym

4. Solving Problems with Dynamic Programming

5. Section 2: Model-Free RL Algorithms

6. Q-Learning and SARSA Applications

7. Deep Q-Network

8. Learning Stochastic and PG Optimization

9. TRPO and PPO Implementation

10. DDPG and TD3 Applications

11. Section 3: Beyond Model-Free Algorithms and Improvements

12. Model-Based RL

13. Imitation Learning with the DAgger Algorithm

14. Understanding Black-Box Optimization Algorithms

15. Developing the ESBAS Algorithm

16. Practical Implementation for Resolving RL Challenges

17. Assessments

18. Other Books You May Enjoy

Leave a review - let other readers know what you think

Deep neural networks and Q-learning

The Q-learning algorithm, as we saw in Chapter 4, Q-Learning and SARSA Applications, has many qualities that enable its application in many real-world contexts. A key ingredient of this algorithm is that it makes use of the Bellman equation for learning the Q-function. The Bellman equation, as used by the Q-learning algorithm, enables the updating of Q-values from subsequent state-action values. This makes the algorithm able to learn at every step, without waiting until the trajectory is completed. Also, every state or action-state pair has its own values stored in a lookup table that saves and retrieves the corresponding values. Being designed in this way, Q-learning converges to optimal values as long as all the state-action pairs are repeatedly sampled. Furthermore, the method uses two policies: a non-greedy behavior policy to gather experience...

The rest of the chapter is locked

A free Packt account unlocks extra newsletters, articles, discounted offers, and much more. Start advancing your knowledge today.

Unlock this book and the full library FREE for 7 days

Get unlimited access to 7000+ expert-authored eBooks and videos courses covering every tech area you can think of

Start free trial

Renews at $19.99/month. Cancel anytime

Authors (1)

Lonza

Andrea Lonza is a deep learning engineer with a great passion for artificial intelligence and a desire to create machines that act intelligently. He has acquired expert knowledge in reinforcement learning, natural language processing, and computer vision through academic and industrial machine learning projects. He has also participated in several Kaggle competitions, achieving high results. He is always looking for compelling challenges and loves to prove himself.

See other products by Lonza