论文信息 - Effect of Wavelength Drift on Single- and Multi-Instrument Calibration Using Genetic Regression

Effect of Wavelength Drift on Single- and Multi-Instrument Calibration Using Genetic Regression

The ability of genetic regression (GR) to correct for wavelength drift in instrument responses was investigated in single- and multiinstrument calibrations. Sample spectra of ternary mixtures were collected on two near-infrared (NIR) spectrometers, one a dispersive instrument and one a Fourier transform instrument, with different resolutions. In the first and second cases, calibration models were generated with the use of spectra collected on a single instrument. For the third case, hybrid calibration models (HCMs) were built in order to combine spectra from two instruments into one calibration model. In order to simulate a wavelength shift, some of the spectra were shifted along the wavelength axis from 0 nm to 6 nm. The performance of GR was poor when calibration models produced from unshifted spectra were used to predict shifted spectra. However, the inclusion of shifted spectra in the calibration model corrected the prediction of shifted and unshifted spectra at levels similar to those of models built and evaluated by using only unshifted spectra.

[1] Genetic Regression as a Calibration Technique for Solid-Phase Extraction of Dithizone-Metal Chelates , 1996 .

[2] C. B. Lucasius,et al. Genetic algorithms in wavelength selection: a comparative study , 1994 .

[3] Durmus Ozdemir,et al. Hybrid Calibration Models: An Alternative to Calibration Transfer , 1998 .

[4] K. Booksh,et al. Mathematical Alignment of Wavelength-Shifted Optical Spectra for Qualitative and Quantitative Analysis , 1996 .

[5] Gerrit Kateman,et al. A Kalman filter for calibration, evaluation of unknown samples and quality control in drifting systems : Part 4. Flow Injection Analysis , 1985 .

[6] John H. Kalivas,et al. Further investigation on a comparative study of simulated annealing and genetic algorithm for wavelength selection , 1995 .

[7] C. B. Lucasius,et al. Genetic algorithms for large-scale optimization in chemometrics: An application , 1991 .

[8] Riccardo Leardi,et al. Genetic Algorithms as a Tool for Wavelength Selection in Multivariate Calibration , 1995 .

[9] Ronald R. Williams,et al. Correcting Fluctuating Baselines and Spectral Overlap with Genetic Regression , 1997 .

[10] Gerrit Kateman,et al. A Kalman filter for calibration, evaluation of unknown samples and quality control in drifting systems : Part 1. Theory and Simulations , 1984 .