GP-RVM: Genetic Programing-Based Symbolic Regression Using Relevance Vector Machine
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gp-bibliography.bib Revision:1.8051
- @InProceedings{Iba:2018:ieeeSMC,
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author = "Hitoshi Iba and Ji Feng and Hossein {Izadi Rad}",
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booktitle = "2018 IEEE International Conference on Systems, Man,
and Cybernetics (SMC)",
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title = "GP-RVM: Genetic Programing-Based Symbolic Regression
Using Relevance Vector Machine",
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year = "2018",
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pages = "255--262",
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abstract = "This paper proposes a hybrid basis function
construction method (GP-RVM) for Symbolic Regression
problem, which combines an extended version of Genetic
Programming called Kaizen Programming and Relevance
Vector Machine to evolve an optimal set of basis
functions. Different from traditional evolutionary
algorithms where a single individual is a complete
solution, our method proposes a solution based on
linear combination of basis functions built from
individuals during the evolving process. RVM which is a
sparse Bayesian kernel method selects suitable
functions to constitute the basis. RVM determines the
posterior weight of a function by evaluating its
quality and sparsity. The solution produced by GP-RVM
is a sparse Bayesian linear model of the coefficients
of many non-linear functions. Our hybrid approach is
focused on nonlinear white-box models selecting the
right combination of functions to build robust
predictions without prior knowledge about data.
Experimental results show that GP-RVM outperforms
conventional methods, which suggest that it is an
efficient and accurate technique for solving SR. The
computational complexity of GP-RVM scales in O(M3),
where M is the number of functions in the basis set and
is typically much smaller than the number N of training
patterns.",
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keywords = "genetic algorithms, genetic programming",
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DOI = "doi:10.1109/SMC.2018.00054",
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ISSN = "2577-1655",
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month = oct,
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notes = "Also known as \cite{8616049}",
- }
Genetic Programming entries for
Hitoshi Iba
Ji Feng
Hossein Izadi Rad
Citations