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Hands-On Neuroevolution with Python

You're reading from   Hands-On Neuroevolution with Python Build high-performing artificial neural network architectures using neuroevolution-based algorithms

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Product type Paperback
Published in Dec 2019
Publisher Packt
ISBN-13 9781838824914
Length 368 pages
Edition 1st Edition
Languages
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Author (1):
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Iaroslav Omelianenko Iaroslav Omelianenko
Author Profile Icon Iaroslav Omelianenko
Iaroslav Omelianenko
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Table of Contents (18) Chapters Close

Preface 1. Section 1: Fundamentals of Evolutionary Computation Algorithms and Neuroevolution Methods FREE CHAPTER
2. Overview of Neuroevolution Methods 3. Python Libraries and Environment Setup 4. Section 2: Applying Neuroevolution Methods to Solve Classic Computer Science Problems
5. Using NEAT for XOR Solver Optimization 6. Pole-Balancing Experiments 7. Autonomous Maze Navigation 8. Novelty Search Optimization Method 9. Section 3: Advanced Neuroevolution Methods
10. Hypercube-Based NEAT for Visual Discrimination 11. ES-HyperNEAT and the Retina Problem 12. Co-Evolution and the SAFE Method 13. Deep Neuroevolution 14. Section 4: Discussion and Concluding Remarks
15. Best Practices, Tips, and Tricks 16. Concluding Remarks 17. Other Books You May Enjoy

Manual versus evolution-based configuration of the topography of neural nodes

The HyperNEAT method, which we discussed in Chapter 7, Hypercube-Based NEAT for Visual Discrimination, allows us to use neuroevolution methods for a broad class of problems that require the use of large-scale ANN structures to find a solution. This class of problem spreads across multiple practical domains, including visual pattern recognition. The main distinguishing feature of all these problems is the high dimensionality of the input/output data.

In the previous chapter, you learned how to define the configuration of the substrate of the discriminator ANN to solve a visual discrimination task. You also learned that it is crucial to use an appropriate substrate configuration that is aligned with the geometric features of the search space of the target problem. With the HyperNEAT method, you, as an...

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