Hands-On Genetic Algorithms with Python
Genetic algorithms are a family of search, optimization, and learning algorithms inspired by the principles of natural evolution. By imitating the evolutionary process, genetic algorithms can overcome hurdles encountered in traditional search algorithms and provide high-quality solutions for a variety of problems. This book will help you get to grips with a powerful yet simple approach to applying genetic algorithms to a wide range of tasks using Python, covering the latest developments in artificial intelligence.
After introducing you to genetic algorithms and their principles of operation, you'll understand how they differ from traditional algorithms and what types of problems they can solve. You'll then discover how they can be applied to search and optimization problems, such as planning, scheduling, gaming, and analytics. As you advance, you'll also learn how to use genetic algorithms to improve your machine learning and deep learning models, solve reinforcement learning tasks, and perform image reconstruction. Finally, you'll cover several related technologies that can open up new possibilities for future applications.
By the end of this book, you'll have hands-on experience of applying genetic algorithms in artificial intelligence as well as in numerous other domains.
- Understand how to use state-of-the-art Python tools to create genetic algorithm-based applications
- Use genetic algorithms to optimize functions and solve planning and scheduling problems
- Enhance the performance of machine learning models and optimize deep learning network architecture
- Apply genetic algorithms to reinforcement learning tasks using OpenAI Gym
- Explore how images can be reconstructed using a set of semi-transparent shapes
- Discover other bio-inspired techniques, such as genetic programming and particle swarm optimization
- Explore the ins and outs of genetic algorithms with this fast-paced guide
- Implement tasks such as feature selection, search optimization, and cluster analysis using Python
- Solve combinatorial problems, optimize functions, and enhance the performance of artificial intelligence applications
Eyal Wirsansky is a senior software engineer, a technology community leader, and an artificial intelligence enthusiast and researcher. Eyal started his software engineering career as a pioneer in the field of voice over IP, and he now has over 20 years' experience of creating a variety of high-performing enterprise solutions. While in graduate school, he focused his research on genetic algorithms and neural networks. One outcome of his research is a novel supervised machine learning algorithm that combines the two.
Eyal leads the Jacksonville (FL) Java user group, hosts the Artificial Intelligence for Enterprise virtual user group, and writes the developer-oriented artificial intelligence blog, ai4java.
- An Introduction to Genetic Algorithms
- Understanding the Key Components of Genetic Algorithms
- Using the DEAP Framework
- Combinatorial Optimization
- Constraint Satisfaction
- Optimizing Continuous Functions
- Enhancing Machine Learning Models Using Feature Selection
- Hyperparameter Tuning Machine Learning Models
- Architecture Optimization of Deep Learning Networks
- Reinforcement Learning with Genetic Algorithms
- Genetic Image Reconstruction
- Other Evolutionary and Bio-Inspired Computation Techniques