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Interpretation of FTIR spectra of polymers and Raman spectra of car paints by means of likelihood ratio approach supported by wavelet transform for reducing data dimensionality
Interpretation of FTIR spectra of polymers and Raman spectra of car paints by means of likelihood ratio approach supported by wavelet transform for reducing data dimensionality
Interpretation of FTIR spectra of polymers and Raman spectra of car paints by means of likelihood ratio approach supported by wavelet transform for reducing data dimensionality
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dc.type
JournalArticle
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dc.description.physical
3357-3376
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dc.abstract.en
The problem of interpretation of common provenance of the samples within the infrared spectra database of polypropylene samples from car body parts and plastic containers as well as Raman spectra databases of blue solid and metallic automotive paints was under investigation. The research involved statistical tools such as likelihood ratio (LR) approach for expressing the evidential value of observed similarities and differences in the recorded spectra. Since the LR models can be easily proposed for databases described by a few variables, research focused on the problem of spectra dimensionality reduction characterised by more than a thousand variables. The objective of the studies was to combine the chemometric tools easily dealing with multidimensionality with an LR approach. The final variables used for LR models' construction were derived from the discrete wavelet transform (DWT) as a data dimensionality reduction technique supported by methods for variance analysis and corresponded with chemical information, i.e. typical absorption bands for polypropylene and peaks associated with pigments present in the car paints. Univariate and multivariate LR models were proposed, aiming at obtaining more information about the chemical structure of the samples. Their performance was controlled by estimating the levels of false positive and false negative answers and using the empirical cross entropy approach. The results for most of the LR models were satisfactory and enabled solving the stated comparison problems. The results prove that the variables generated from DWT preserve signal characteristic, being a sparse representation of the original signal by keeping its shape and relevant chemical information.
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dc.subject.en
Raman spectroscopy of blue car paints
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dc.subject.en
data dimensionality reduction
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dc.subject.en
FTIR spectrometry of polymers
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dc.subject.en
wavelet transform
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dc.subject.en
comparison problem
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dc.subject.en
likelihood ratio
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dc.description.volume
407
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dc.description.number
12
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dc.identifier.doi
10.1007/s00216-015-8558-9
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dc.identifier.eissn
1618-2650
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dc.title.journal
Analytical and Bioanalytical Chemistry
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dc.language.container
eng
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dc.affiliation
Wydział Chemii : Zakład Chemii Analitycznej
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dc.subtype
Article
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dc.rights.original
bez licencji
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.pointsMNiSW
[2015 A]: 35
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