The impact of temperature variations on spectroscopic calibration modelling: a comparative study
Chen, T and Martin, E (2007) The impact of temperature variations on spectroscopic calibration modelling: a comparative study In: International Chemometrics Research Meeting (ICRM 2006), 2006-05-28 - 2006-06-01, Veldhoven, NETHERLANDS.
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Temperature fluctuations can have a significant impact on the repeatability of spectral measurements and as a consequence can adversely affect the resulting calibration model. More specifically, when test samples measured at temperatures unseen in the training dataset are presented to the model, degraded predictive performance can materialise. Current methods for addressing the temperature variations in a calibration model can be categorised into two classes—calibration model based approaches, and spectra standardisation methodologies. This paper presents a comparative study on a number of strategies reported in the literature including partial least squares (PLS), continuous piecewise direct standardisation (CPDS) and loading space standardisation (LSS), in terms of the practical applicability of the algorithms, their implementation complexity, and their predictive performance. It was observed from the study that the global modelling approach, where latent variables are initially extracted from the spectra using PLS, and then augmented with temperature as the independent variable, achieved the best predictive performance. In addition, the two spectra standardisation methods, CPDS and LSS, did not provide consistently enhanced performance over the conventional global modelling approach, despite the additional effort in terms of standardising the spectra across different temperatures. Considering the algorithmic complexity and resulting calibration accuracy, it is concluded that the global modelling (with temperature) approach should be first considered for the development of a calibration model where temperature variations are known to affect the fundamental data, prior to investigating the more powerful spectra standardisation approaches. Copyright © 2007 John Wiley & Sons, Ltd.
|Item Type:||Conference or Workshop Item (Conference Paper)|
|Divisions :||Faculty of Health and Medical Sciences|
|Date :||1 May 2007|
|Identification Number :||https://doi.org/10.1002/cem.1041|
|Uncontrolled Keywords :||Science & Technology, Technology, Physical Sciences, Automation & Control Systems, Chemistry, Analytical, Computer Science, Artificial Intelligence, Instruments & Instrumentation, Mathematics, Interdisciplinary Applications, Statistics & Probability, Chemistry, Computer Science, Mathematics, AUTOMATION & CONTROL SYSTEMS, CHEMISTRY, ANALYTICAL, COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE, INSTRUMENTS & INSTRUMENTATION, MATHEMATICS, INTERDISCIPLINARY APPLICATIONS, STATISTICS & PROBABILITY, spectral standardisation, multivariate spectroscopic calibration, temperature variation, PIECEWISE DIRECT STANDARDIZATION, NEAR-INFRARED SPECTROSCOPY, INDUCED SPECTRAL VARIATION, SUPPORT VECTOR MACHINES, ATR-FTIR SPECTROSCOPY, MULTIVARIATE CALIBRATION, SUPERSATURATION, REGRESSION, PLS|
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|Additional Information :||This is the peer reviewed version of the following article: Chen, T and Martin, E (2007) The impact of temperature variations on spectroscopic calibration modelling: a comparative study In: International Chemometrics Research Meeting (ICRM 2006), 2006-05-28 - 2006-06-01, Veldhoven, NETHERLANDS, which has been published in final form at http://dx.doi.org/10.1002/cem.1041. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Self-Archiving.|
|Depositing User :||Symplectic Elements|
|Date Deposited :||02 Dec 2015 10:50|
|Last Modified :||02 Dec 2015 10:50|
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