SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2016372905> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W2016372905 endingPage "2067" @default.
W2016372905 startingPage "2057" @default.
W2016372905 abstract "Imaging spectroscopy is becoming a key field of analytical chemistry. In the face of more and more complex samples, we actually need accurate microscopic insight. Nowadays, the methods used to produce concentration maps of the pure compounds from spectral data sets are based on the classical univariate approach although multivariate approaches are sometimes investigated. But in any case, the analytical quality of the chemical images thus provided cannot be discussed since no reference methods are at our disposal. Thus the proposed research focuses on the application of multivariate methods such as Orthogonal Projection Approach (OPA), SIMPLE-to-use Self-modeling Mixture Analysis (SIMPLISMA), Multivariate Curve Resolution - Alterning Least Squares (MCR-ALS), and Positive Matrix Factorization (PMF) for imaging spectroscopy. A systematic and quantitative characterization of the accuracy of spectra and images extraction is investigated on mid-infrared spectral data sets. Of special interest is the influence of instrumental perturbations such as noise and spectral shift on the extraction ability to access the algorithm's robustness." @default.
W2016372905 created "2016-06-24" @default.
W2016372905 creator A5002253643 @default.
W2016372905 creator A5041589588 @default.
W2016372905 creator A5058447010 @default.
W2016372905 creator A5083693418 @default.
W2016372905 date "2003-10-29" @default.
W2016372905 modified "2023-10-16" @default.
W2016372905 title "Multivariate Curve Resolution Methods in Imaging Spectroscopy: Influence of Extraction Methods and Instrumental Perturbations" @default.
W2016372905 cites W1975054693 @default.
W2016372905 cites W1975453939 @default.
W2016372905 cites W1976681541 @default.
W2016372905 cites W1980106743 @default.
W2016372905 cites W1980379294 @default.
W2016372905 cites W1981217928 @default.
W2016372905 cites W1981306507 @default.
W2016372905 cites W1981939937 @default.
W2016372905 cites W1982007541 @default.
W2016372905 cites W1984203766 @default.
W2016372905 cites W1984520834 @default.
W2016372905 cites W1986157931 @default.
W2016372905 cites W1987120148 @default.
W2016372905 cites W1987578403 @default.
W2016372905 cites W1988365919 @default.
W2016372905 cites W1993008846 @default.
W2016372905 cites W1999200352 @default.
W2016372905 cites W1999291689 @default.
W2016372905 cites W1999715223 @default.
W2016372905 cites W2000739842 @default.
W2016372905 cites W2005203663 @default.
W2016372905 cites W2007816360 @default.
W2016372905 cites W2012470056 @default.
W2016372905 cites W2017928708 @default.
W2016372905 cites W2019137798 @default.
W2016372905 cites W2022326504 @default.
W2016372905 cites W2023630025 @default.
W2016372905 cites W2023902618 @default.
W2016372905 cites W2025053504 @default.
W2016372905 cites W2037283619 @default.
W2016372905 cites W2038614908 @default.
W2016372905 cites W2041663044 @default.
W2016372905 cites W2044331461 @default.
W2016372905 cites W2045455498 @default.
W2016372905 cites W2054698411 @default.
W2016372905 cites W2056177234 @default.
W2016372905 cites W2059020380 @default.
W2016372905 cites W2059745395 @default.
W2016372905 cites W2064019741 @default.
W2016372905 cites W2064087793 @default.
W2016372905 cites W2064590613 @default.
W2016372905 cites W2070328170 @default.
W2016372905 cites W2077715824 @default.
W2016372905 cites W2084680263 @default.
W2016372905 cites W2085287838 @default.
W2016372905 cites W2092280582 @default.
W2016372905 cites W2092538386 @default.
W2016372905 cites W2118636195 @default.
W2016372905 cites W2126506025 @default.
W2016372905 cites W2127393283 @default.
W2016372905 cites W2131668746 @default.
W2016372905 cites W2137526150 @default.
W2016372905 cites W2163382882 @default.
W2016372905 cites W2169021277 @default.
W2016372905 cites W4241294859 @default.
W2016372905 doi "https://doi.org/10.1021/ci034097v" @default.
W2016372905 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/14632458" @default.
W2016372905 hasPublicationYear "2003" @default.
W2016372905 type Work @default.
W2016372905 sameAs 2016372905 @default.
W2016372905 citedByCount "64" @default.
W2016372905 countsByYear W20163729052012 @default.
W2016372905 countsByYear W20163729052013 @default.
W2016372905 countsByYear W20163729052014 @default.
W2016372905 countsByYear W20163729052015 @default.
W2016372905 countsByYear W20163729052016 @default.
W2016372905 countsByYear W20163729052017 @default.
W2016372905 countsByYear W20163729052018 @default.
W2016372905 countsByYear W20163729052019 @default.
W2016372905 countsByYear W20163729052020 @default.
W2016372905 countsByYear W20163729052021 @default.
W2016372905 countsByYear W20163729052022 @default.
W2016372905 countsByYear W20163729052023 @default.
W2016372905 crossrefType "journal-article" @default.
W2016372905 hasAuthorship W2016372905A5002253643 @default.
W2016372905 hasAuthorship W2016372905A5041589588 @default.
W2016372905 hasAuthorship W2016372905A5058447010 @default.
W2016372905 hasAuthorship W2016372905A5083693418 @default.
W2016372905 hasConcept C104317684 @default.
W2016372905 hasConcept C105795698 @default.
W2016372905 hasConcept C119857082 @default.
W2016372905 hasConcept C121332964 @default.
W2016372905 hasConcept C151304367 @default.
W2016372905 hasConcept C154945302 @default.
W2016372905 hasConcept C161584116 @default.
W2016372905 hasConcept C185592680 @default.
W2016372905 hasConcept C186060115 @default.
W2016372905 hasConcept C199163554 @default.
W2016372905 hasConcept C22354355 @default.