2009 | OriginalPaper | Buchkapitel
Semantic Aware Crossover for Genetic Programming: The Case for Real-Valued Function Regression
verfasst von : Quang Uy Nguyen, Xuan Hoai Nguyen, Michael O’Neill
Erschienen in: Genetic Programming
Verlag: Springer Berlin Heidelberg
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In this paper, we apply the ideas from [2] to investigate the effect of some semantic based guidance to the crossover operator of GP. We conduct a series of experiments on a family of real-valued symbolic regression problems, examining four different semantic aware crossover operators. One operator considers the semantics of the exchanged subtrees, while the other compares the semantics of the child trees to their parents. Two control operators are adopted which reverse the logic of the semantic equivalence test. The results show that on the family of test problems examined, the (approximate) semantic aware crossover operators can provide performance advantages over the standard subtree crossover adopted in Genetic Programming.