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Date
2008Type
- Book Chapter
ETH Bibliography
yes
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Abstract
This chapter investigates the use of multiobjective techniques in genetic programming (GP) in order to evolve compact programs and to reduce the effects caused by bloating. The underlying approach considers the program size as a second, independent objective besides program functionality, and several studies have found this concept to be successful in reducing bloat. Based on one specific algorithm, we demonstrate the principle of multiobjective GP and show how to apply Pareto-based strategies to GP. This approach outperforms four classical strategies to reduce bloat with regard to both convergence speed and size of the produced programs on an even-parity problem. Additionally, we investigate the question of why the Pareto-based strategies can be more effective in reducing bloat than alternative strategies on several test problems. The analysis falsifies the hypothesis that the small but less functional individuals that are kept in the population act as building blocks building blocks for larger correct solutions. This leads to the conclusion that the advantages are probably due to the increased diversity in the population. Show more
Publication status
publishedBook title
Multiobjective Problem Solving from NatureJournal / series
Natural Computing SeriesPages / Article No.
Publisher
SpringerOrganisational unit
03662 - Zitzler, Eckart
03429 - Thiele, Lothar (emeritus) / Thiele, Lothar (emeritus)
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ETH Bibliography
yes
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