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Extending the Scalability of Linkage Learning Genetic Algorithms

Theory & Practice

  • Book
  • © 2006

Overview

Authors:
  1. Ying-ping Chen
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  • Advances our understanding of the linkage learning genetic algorithm and demonstrates potential research directions
  • Includes supplementary material: sn.pub/extras

Part of the book series: Studies in Fuzziness and Soft Computing (STUDFUZZ, volume 190)

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Table of contents (9 chapters)

  1. Front Matter

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  2. Introduction

    • Ying-ping Chen
    Pages 1-4

  3. Genetic Algorithms and Genetic Linkage

    • Ying-ping Chen
    Pages 5-22

  4. Genetic Linkage Learning Techniques

    • Ying-ping Chen
    Pages 23-33

  5. Linkage Learning Genetic Algorithm

    • Ying-ping Chen
    Pages 35-43

  6. Preliminaries: Assumptions and the Test Problem

    • Ying-ping Chen
    Pages 45-49

  7. A First Improvement: Using Promoters

    • Ying-ping Chen
    Pages 51-61

  8. Convergence Time for the Linkage Learning Genetic Algorithm

    • Ying-ping Chen
    Pages 63-90

  9. Introducing Subchromosome Representations

    • Ying-ping Chen
    Pages 91-99

  10. Conclusions

    • Ying-ping Chen
    Pages 101-108

  11. Back Matter

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Keywords

About this book

Genetic algorithms (GAs) are powerful search techniques based on principles of evolution and widely applied to solve problems in many disciplines. However, most GAs employed in practice nowadays are unable to learn genetic linkage and suffer from the linkage problem. The linkage learning genetic algorithm (LLGA) was proposed to tackle the linkage problem with several specially designed mechanisms. While the LLGA performs much better on badly scaled problems than simple GAs, it does not work well on uniformly scaled problems as other competent GAs. Therefore, we need to understand why it is so and need to know how to design a better LLGA or whether there are certain limits of such a linkage learning process. This book aims to gain better understanding of the LLGA in theory and to improve the LLGA's performance in practice. It starts with a survey of the existing genetic linkage learning techniques and describes the steps and approaches taken to tackle the research topics, including using promoters, developing the convergence time model, and adopting subchromosomes.

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