Optimal Experiment Design for Coevolutionary Active Learning
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- @Article{Ly:2014:ieeeTEC,
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author = "Daniel Le Ly and Hod Lipson",
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title = "Optimal Experiment Design for Coevolutionary Active
Learning",
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journal = "IEEE Transactions on Evolutionary Computation",
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year = "2014",
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volume = "18",
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number = "3",
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pages = "394--404",
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month = jun,
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keywords = "genetic algorithms, genetic programming, Active
Learning, Competitive Coevolution, Optimal Experiment
Design, Shannon Information Criterion",
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ISSN = "1089-778X",
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DOI = "doi:10.1109/TEVC.2013.2281529",
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size = "11 pages",
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abstract = "This paper presents a policy for selecting the most
informative individuals in a teacher-learner type
coevolution. We propose the use of the surprisal of the
mean, based on Shannon information theory, which best
disambiguates a collection of arbitrary and competing
models based solely on their predictions. This policy
is demonstrated within an iterative, coevolutionary
framework consisting of symbolic regression for model
inference and a genetic algorithm for optimal
experiment design. Complex, symbolic expressions are
reliably inferred using fewer than 32 observations. The
policy requires 21percent fewer experiments for model
inference compared to baselines and is particularly
effective in the presence of noise corruption, local
information content as well as high dimensional
systems. Furthermore, the policy was applied in a
real-world setting to model concrete compression
strength, where it was able to achieve 96.1percent of
the passive machine learning baseline performance with
only 16.6percent of the data.",
-
notes = "also known as \cite{6595614}",
- }
Genetic Programming entries for
Daniel L Ly
Hod Lipson
Citations