Meta-Learning and Feature Ranking Using Genetic Programming for Classification: Variable Terminal Weighting
Created by W.Langdon from
gp-bibliography.bib Revision:1.8129
- @InProceedings{Friedlander:2011:MaFRUGPfCVTW,
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title = "Meta-Learning and Feature Ranking Using Genetic
Programming for Classification: Variable Terminal
Weighting",
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author = "Anna Friedlander and Kourosh Neshatian and
Mengjie Zhang",
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pages = "940--947",
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booktitle = "Proceedings of the 2011 IEEE Congress on Evolutionary
Computation",
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year = "2011",
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editor = "Alice E. Smith",
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month = "5-8 " # jun,
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address = "New Orleans, USA",
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organization = "IEEE Computational Intelligence Society",
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publisher = "IEEE Press",
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ISBN = "0-7803-8515-2",
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keywords = "genetic algorithms, genetic programming, GP, feature
ranking algorithms, feature selection, feature
weighting vector, learning classification, meta
learning, online feature weighting method, probability,
variable terminal weighting, feature extraction,
learning (artificial intelligence), probability",
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DOI = "doi:10.1109/CEC.2011.5949719",
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abstract = "We propose an online feature weighting method for
classification by genetic programming (GP). GP's
implicit feature selection was used to construct a
feature weighting vector, based on the fitness of
solutions in which the features were found and the
frequency at which they were found. The vector was used
to perform feature ranking and to perform meta-learning
by biasing terminal selection in mutation. The proposed
meta-learning mechanism significantly improved the
quality of solutions in terms of classification
accuracy on an unseen test set. The probability of
success---the probability of finding the desired
solution within a given number of generations (fitness
evaluations)---was also higher than canonical GP. The
ranking obtained by using the GP-provided feature
weighting was very highly correlated with the ranking
obtained by commonly-used feature ranking algorithms.
Population information during evolution can help shape
search behaviour (meta-learning) and obtain useful
information about the problem domain such as the
importance of input features with respect to each
other.",
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notes = "CEC2011 sponsored by the IEEE Computational
Intelligence Society, and previously sponsored by the
EPS and the IET.",
- }
Genetic Programming entries for
Anna Friedlander
Kourosh Neshatian
Mengjie Zhang
Citations