Issue 1, 2012

Adaptive multiscale regression for reliable Raman quantitative analysis

Abstract

This paper presents a novel methodology, adaptive multiscale regression (AMR), to adaptively process Raman spectra for quantitative analysis. The proposed methodology aims to construct an optimal calibration model for a Raman spectrum at hand, regardless of its structural characteristics, thus facilitating the application of Raman spectroscopy as a general tool for analytical chemistry. AMR firstly splits the spectra in a calibration set into frequency components at different scales using adaptive wavelet transform (AWT). Parallel member models constructed at different scales are then fused into a final prediction. The contributions of member models to a fusion model are straightforwardly estimated by a partial least square (PLS) model that emerges from a cross-validation results matrix (X) and reference values (Y). This procedure avoids information leakage by fully utilizing the multiscale nature of the input Raman spectra instead of arbitrarily removing some part of the spectral information by calibrating to selected features. Theoretically, we establish that AMR represents an automatic data-driven strategy that captures the Raman spectral structures adaptively and accurately. Our work tests and refines the AMR method by drawing upon the systematic analysis of spectra formulated to yield challenges representative of those encountered in common Raman analyses. AMR compares favorably with other popular preprocessing methods. Satisfactory calibration results suggest that AMR has the capacity to improve robustness and reliability of Raman spectral analysis, and may well extend to other spectroscopic techniques.

Graphical abstract: Adaptive multiscale regression for reliable Raman quantitative analysis

Article information

Article type
Paper
Submitted
08 Aug 2011
Accepted
04 Oct 2011
First published
28 Oct 2011

Analyst, 2012,137, 237-244

Adaptive multiscale regression for reliable Raman quantitative analysis

D. Chen, Z. Chen and E. R. Grant, Analyst, 2012, 137, 237 DOI: 10.1039/C1AN15719A

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