msbackadj correction algorithm Search Results


msbackadj correction algorithm  (MathWorks Inc)
90
MathWorks Inc msbackadj correction algorithm
Preprocessed Raman spectra from fresh brain tissue samples covering the fingerprint region. Six different methods were used for smoothing and baseline correction: Polynomial, Vancouver, <t>msbackadj,</t> Rollingball, second derivative, and a neural network trained on synthetic data. Spectral features of a cluster with the influence of A) proteins and lipids (T in cluster analysis), B) proteins and lipids, but at different peak intensities (T* in cluster analysis), and C) carotenoid signature (C in cluster analysis). SG: Savitzky-Golay.
Msbackadj Correction Algorithm, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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msbackadj correction algorithm - by Bioz Stars, 2026-04
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Preprocessed Raman spectra from fresh brain tissue samples covering the fingerprint region. Six different methods were used for smoothing and baseline correction: Polynomial, Vancouver, msbackadj, Rollingball, second derivative, and a neural network trained on synthetic data. Spectral features of a cluster with the influence of A) proteins and lipids (T in cluster analysis), B) proteins and lipids, but at different peak intensities (T* in cluster analysis), and C) carotenoid signature (C in cluster analysis). SG: Savitzky-Golay.

Journal: Biomedical Optics Express

Article Title: Impact of preprocessing methods on the Raman spectra of brain tissue

doi: 10.1364/BOE.476507

Figure Lengend Snippet: Preprocessed Raman spectra from fresh brain tissue samples covering the fingerprint region. Six different methods were used for smoothing and baseline correction: Polynomial, Vancouver, msbackadj, Rollingball, second derivative, and a neural network trained on synthetic data. Spectral features of a cluster with the influence of A) proteins and lipids (T in cluster analysis), B) proteins and lipids, but at different peak intensities (T* in cluster analysis), and C) carotenoid signature (C in cluster analysis). SG: Savitzky-Golay.

Article Snippet: Matlab’s msbackadj correction algorithm (iv, Bioinformatics Toolbox, Matlab R2021a, Mathworks) was chosen as representative of a commercial software.

Techniques:

Preprocessed Raman spectra from fresh brain tissue covering the high wavenumber region. Six different methods were used for smoothing and baseline correction: Polynomial, Vancouver, msbackadj, Rollingball, second derivative, and a neural network trained on synthetic data. Spectral features of a cluster with the influence of A) proteins and lipids (T in cluster analysis), B) proteins, lipids, and water (WB in cluster analysis), and C) PpIX-fluorescence peak from metabolized 5-ALA (P in cluster analysis). SG: Savitzky-Golay.

Journal: Biomedical Optics Express

Article Title: Impact of preprocessing methods on the Raman spectra of brain tissue

doi: 10.1364/BOE.476507

Figure Lengend Snippet: Preprocessed Raman spectra from fresh brain tissue covering the high wavenumber region. Six different methods were used for smoothing and baseline correction: Polynomial, Vancouver, msbackadj, Rollingball, second derivative, and a neural network trained on synthetic data. Spectral features of a cluster with the influence of A) proteins and lipids (T in cluster analysis), B) proteins, lipids, and water (WB in cluster analysis), and C) PpIX-fluorescence peak from metabolized 5-ALA (P in cluster analysis). SG: Savitzky-Golay.

Article Snippet: Matlab’s msbackadj correction algorithm (iv, Bioinformatics Toolbox, Matlab R2021a, Mathworks) was chosen as representative of a commercial software.

Techniques: Fluorescence