Probabilistic Model-Based Multistep Crossover for Genetic Programming
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- @InProceedings{Matsumura:2016:SCIS,
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author = "Kohei Matsumura and Yoshiko Hanada and Keiko Ono",
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booktitle = "2016 Joint 8th International Conference on Soft
Computing and Intelligent Systems (SCIS) and 17th
International Symposium on Advanced Intelligent Systems
(ISIS)",
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title = "Probabilistic Model-Based Multistep Crossover for
Genetic Programming",
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year = "2016",
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pages = "154--159",
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abstract = "Deterministic Multistep crossover fusion (dMSXF) is
one of promising crossover methods of a tree-based
genetic programming. dMSXF performs a multistep local
search from a parent in the direction approaching the
other parent. In the local search, neighbourhood
solutions are generated by operators based on a
replacement, an insertion and a deletion of nodes to
combine both parents' small trait step by step. Due to
this mechanism, dMSXF can generate a wide variety of
solution between parents. However, some random nodes
are inserted or deleted in the solution at each step of
the local search to satisfy constraints, which
sometimes cause the generation of undesirable
neighbourhood solutions. In this paper, we introduce a
probabilistic model constructed by the search
information to the generation of neighbourhood
solutions in order to improve the search efficiency of
dMSXF. The search performance of the proposed method is
evaluated on symbolic regression problems and the Santa
Fe Trail problem.",
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keywords = "genetic algorithms, genetic programming",
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DOI = "doi:10.1109/SCIS-ISIS.2016.0043",
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month = aug,
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notes = "Also known as \cite{7801630}",
- }
Genetic Programming entries for
Kohei Matsumura
Yoshiko Hanada
Keiko Ono
Citations