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Reinforcement Learning Algorithms with Python

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

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Product type Paperback
Published in Oct 2019
Publisher Packt
ISBN-13 9781789131116
Length 366 pages
Edition 1st Edition
Languages
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Author (1):
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Andrea Lonza Andrea Lonza
Author Profile Icon Andrea Lonza
Andrea Lonza
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Table of Contents (19) Chapters Close

Preface 1. Section 1: Algorithms and Environments
2. The Landscape of Reinforcement Learning FREE CHAPTER 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

Summary

In this chapter, we approached two different ways in which to solve an RL problem. The first is through the estimation of state-action values that are used to choose the best next action, so-called Q-learning algorithms. The second involves the maximization of the expected reward policy through its gradient. In fact, these methods are called policy gradient methods. In this chapter, we showed the advantages and disadvantages of such approaches, and demonstrated that many of these are complementary. For example, Q-learning algorithms are sample efficient but cannot deal with continuous action. Instead, policy gradient algorithms require more data, but are able to control agents with continuous actions. We then introduced DPG methods that combine Q-learning and policy gradient techniques. In particular, these methods overcome the global maximization of the Q-learning algorithms...

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