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You're reading from Hands-On Genetic Algorithms with Python Applying genetic algorithms to solve real-world deep learning and artificial intelligence problems

Product type Paperback

Published in Jan 2020

Publisher Packt

ISBN-13 9781838557744

Length 346 pages

Edition 1st Edition

Languages

Python

Tools

Keras

Concepts

Artificial Intelligence

Author (1):

Eyal Wirsansky

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Table of Contents (18) Chapters

Preface

1. Section 1: The Basics of Genetic Algorithms

2. An Introduction to Genetic Algorithms FREE CHAPTER

3. Understanding the Key Components of Genetic Algorithms

4. Section 2: Solving Problems with Genetic Algorithms

5. Using the DEAP Framework

6. Combinatorial Optimization

7. Constraint Satisfaction

8. Optimizing Continuous Functions

9. Section 3: Artificial Intelligence Applications of Genetic Algorithms

10. Enhancing Machine Learning Models Using Feature Selection

11. Hyperparameter Tuning of Machine Learning Models

12. Architecture Optimization of Deep Learning Networks

13. Reinforcement Learning with Genetic Algorithms

14. Section 4: Related Technologies

15. Genetic Image Reconstruction

16. Other Evolutionary and Bio-Inspired Computation Techniques

17. Other Books You May Enjoy

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Tuning the hyperparameters using a direct genetic approach

Besides offering an efficient grid search option, genetic algorithms can be utilized to directly search the entire parameter space, just as we used them to search the input space for many types of problems throughout this book. Each hyperparameter can be represented as a variable participating in the search, and the chromosome can be a combination of all these variables.

Since the hyperparameters can be of varying types, for example, float, int, and enumerated, which we have in our AdaBoost classifier, we may want to code each of them differently, and then define the genetic operations as a combination of separate operators that are adapted to each of the types. However, we can also use a lazy approach and code all of them as float parameters to simplify the implementation of the algorithm, as we will see next.

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Authors (1)

Eyal Wirsansky

Eyal Wirsansky is a senior data scientist, an experienced software engineer, a technology community leader, and an artificial intelligence researcher. Eyal began his software engineering career over twenty-five years ago as a pioneer in the field of Voice over IP. He currently works as a member of the data platform team at Gradle, Inc. During his graduate studies, he focused his research on genetic algorithms and neural networks. A notable result of this research is a novel supervised machine learning algorithm that integrates both approaches. In addition to his professional roles, Eyal serves as an adjunct professor at Jacksonville University, where he teaches a class on artificial intelligence. He also leads both the Jacksonville, Florida Java User Group and the Artificial Intelligence for Enterprise virtual user group, and authors the developer-focused artificial intelligence blog, ai4java.

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