PyTorch 1.x Reinforcement Learning Cookbook: Over 60 recipes to design, develop, and deploy self-learning AI models using Python

PyTorch 1.x Reinforcement Learning Cookbook: Over 60 recipes to design, develop, and deploy self-learning AI models using Python

English | 2019 | ISBN: 978-1838551964 | 340 Pages | PDF, EPUB | 34 MB

Implement reinforcement learning techniques and algorithms with the help of real-world examples and recipes
Reinforcement learning (RL) is a branch of machine learning that has gained popularity in recent times. It allows you to train AI models that learn from their own actions and optimize their behavior. PyTorch has also emerged as the preferred tool for training RL models because of its efficiency and ease of use.
With this book, you’ll explore the important RL concepts and the implementation of algorithms in PyTorch 1.x. The recipes in the book, along with real-world examples, will help you master various RL techniques, such as dynamic programming, Monte Carlo simulations, temporal difference, and Q-learning. You’ll also gain insights into industry-specific applications of these techniques. Later chapters will guide you through solving problems such as the multi-armed bandit problem and the cartpole problem using the multi-armed bandit algorithm and function approximation. You’ll also learn how to use Deep Q-Networks to complete Atari games, along with how to effectively implement policy gradients. Finally, you’ll discover how RL techniques are applied to Blackjack, Gridworld environments, internet advertising, and the Flappy Bird game.
By the end of this book, you’ll have developed the skills you need to implement popular RL algorithms and use RL techniques to solve real-world problems.
What you will learn

  • Use Q-learning and the state–action–reward–state–action (SARSA) algorithm to solve various Gridworld problems
  • Develop a multi-armed bandit algorithm to optimize display advertising
  • Scale up learning and control processes using Deep Q-Networks
  • Simulate Markov Decision Processes, OpenAI Gym environments, and other common control problems
  • Select and build RL models, evaluate their performance, and optimize and deploy them
  • Use policy gradient methods to solve continuous RL problems
Homepage