| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1162838 | Analytica Chimica Acta | 2016 | 7 Pages |
•Sensitivity for various multivariate calibration methods is studied.•Different error structures are considered.•Generalized analytical sensitivity is proposed as a new figure of merit.•The new parameter allows better comparison among calibration methods.
Generalized analytical sensitivity (γ) is proposed as a new figure of merit, which can be estimated from a multivariate calibration data set. It can be confidently applied to compare different calibration methodologies, and helps to solve literature inconsistencies on the relationship between classical sensitivity and prediction error. In contrast to the classical plain sensitivity, γ incorporates the noise properties in its definition, and its inverse is well correlated with root mean square errors of prediction in the presence of general noise structures. The proposal is supported by studying simulated and experimental first-order multivariate calibration systems with various models, namely multiple linear regression, principal component regression (PCR) and maximum likelihood PCR (MLPCR). The simulations included instrumental noise of different types: independently and identically distributed (iid), correlated (pink) and proportional noise, while the experimental data carried noise which is clearly non-iid.
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