International audienceInfrared (IR) spectroscopic techniques combined with multivariate calibration (MVC) methods are promising for on-line monitoring. In a previous article [M. Zeaiter, M. Roger, V. Belon-Maurel, D. Rutledge, Trends Anal. Chem. 23 (2004) 157], robustness of the calibration was defined and different ways to evaluate it were identified. In order to improve the robustness of these calibration methods for industrial applications, an overview is presented of the existing methods, usually used to enhance prediction-model performance. The first part focuses on geometric spectral pre-processing methods, such as normalization methods, smoothing and derivatives. The second part discusses dimensionalityreduction methods, represented ...
Contains fulltext : 18858.pdf (publisher's version ) (Open Access)162 p
Vibrational spectroscopy methods are widely investigated as fast and non-destructive alternatives fo...
In applied spectroscopy, the purpose of multivariate calibration is almost exclusively to relate ana...
[Departement_IRSTEA]EA [TR1_IRSTEA]TESAD / CASYSInternational audienceInfrared (IR) spectroscopic te...
This work reviews both current methods and new developments in treating spectral interferences in mu...
Improvement of the robustness of multivariate calibration models used with infrared spectroscopy (IR...
In quantitative on-line/in-line monitoring of chemical and bio-chemical processes using spectroscopi...
To calibrate spectral data, one typically starts with preprocessing the spectra and then applies a m...
The development of reliable multivariate calibration models for spectroscopic instruments in on-line...
Multivariate calibration techniques have been used in a wide variety of spectroscopic situations. In...
This paper gives an introduction to multivariate calibration from a chemometrics perspective and rev...
The closed-form solution of the so-called statistical multivariate calibration model is given in ter...
One of the essential factors influencing the prediction accuracy of multivariate calibration models ...
A sample selection strategy based on the Successive Projections Algorithm (SPA), which is a techniqu...
When analyzing heterogeneous samples using spectroscopy, the light scattering effect introduces non-...
Contains fulltext : 18858.pdf (publisher's version ) (Open Access)162 p
Vibrational spectroscopy methods are widely investigated as fast and non-destructive alternatives fo...
In applied spectroscopy, the purpose of multivariate calibration is almost exclusively to relate ana...
[Departement_IRSTEA]EA [TR1_IRSTEA]TESAD / CASYSInternational audienceInfrared (IR) spectroscopic te...
This work reviews both current methods and new developments in treating spectral interferences in mu...
Improvement of the robustness of multivariate calibration models used with infrared spectroscopy (IR...
In quantitative on-line/in-line monitoring of chemical and bio-chemical processes using spectroscopi...
To calibrate spectral data, one typically starts with preprocessing the spectra and then applies a m...
The development of reliable multivariate calibration models for spectroscopic instruments in on-line...
Multivariate calibration techniques have been used in a wide variety of spectroscopic situations. In...
This paper gives an introduction to multivariate calibration from a chemometrics perspective and rev...
The closed-form solution of the so-called statistical multivariate calibration model is given in ter...
One of the essential factors influencing the prediction accuracy of multivariate calibration models ...
A sample selection strategy based on the Successive Projections Algorithm (SPA), which is a techniqu...
When analyzing heterogeneous samples using spectroscopy, the light scattering effect introduces non-...
Contains fulltext : 18858.pdf (publisher's version ) (Open Access)162 p
Vibrational spectroscopy methods are widely investigated as fast and non-destructive alternatives fo...
In applied spectroscopy, the purpose of multivariate calibration is almost exclusively to relate ana...