Genetic programming for classification and feature selection: analysis of 1H nuclear magnetic resonance spectra from human brain tumour biopsies
Created by W.Langdon from
gp-bibliography.bib Revision:1.8120
- @Article{gray:1998:GPcfs:aNMRshbtb,
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author = "Helen F. Gray and Ross J. Maxwell and
Irene Martinez-Perez and Carles Arus and Sebastian Cerdan",
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title = "Genetic programming for classification and feature
selection: analysis of {1H} nuclear magnetic resonance
spectra from human brain tumour biopsies",
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journal = "NMR Biomedicine",
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year = "1998",
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volume = "11",
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number = "4-5",
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pages = "217--224",
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month = jun # "-" # aug,
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keywords = "genetic algorithms, genetic programming, brain tumour,
artificial intelligence, classification, feature
selection",
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ISSN = "1099-1492",
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DOI = "doi:10.1002/(SICI)1099-1492(199806/08)11:4/5%3C217::AID-NBM512%3E3.0.CO%3B2-4",
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size = "8 pages",
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abstract = "Genetic programming (GP) is used to classify tumours
based on 1H nuclear magnetic resonance (NMR) spectra of
biopsy extracts. Analysis of such data would ideally
give not only a classification result but also indicate
which parts of the spectra are driving the
classification (i.e. feature selection). Experiments on
a database of variables derived from 1H NMR spectra
from human brain tumour extracts (n = 75) are reported,
showing GP's classification abilities and comparing
them with that of a neural network. GP successfully
classified the data into meningioma and non-meningioma
classes. The advantage over the neural network method
was that it made use of simple combinations of a small
group of metabolites, in particular glutamine,
glutamate and alanine. This may help in the choice of
the most informative NMR spectroscopy methods for
future non-invasive studies in patients.",
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notes = "PMID: 9719576, UI: 98384081 Computer Science
Department, Arhus University, Denmark.",
- }
Genetic Programming entries for
Helen Gray
Ross James Maxwell
Irene Martinez-Perez
Carles Arus
Sebastian Cerdan
Citations