Oxygenates are added to gasoline to reduce exhaust
emission levels of carbon monoxide and to boost octane.
The U.S. National Institute of Standards and
Technology
(NIST) provides 12 Standard Reference Materials (SRMs)
for single oxygenates in reference gasoline. A
previous
study demonstrated the feasibility of nondestructively
quantifying oxygenate concentration in SRM gasoline
ampules using near-infrared (near-IR) spectroscopy combined with multivariate calibration techniques. A drawback of this approach has been that an average prediction
uncertainty, rather than a sample-specific one, is obtained. Recent developments in multivariate
calibration
theory for prediction error variance cure this problem.
This report characterizes the significant sources of
uncertainties in multivariate calibration using principal
component regression and partial least-squares, validating
near-IR and other multivariate spectroscopic techniques
for use in assigning certified values (expected value with
specified uncertainty) to selected materials. This
report
interprets prediction results in terms of multivariate
analytical figures of merit, enabling the visualization of
complex multivariate models as univariate graphs.
The effect of locating the limits of integration on the accuracy of measuring and calculating statistical moments for chromatographic data is discussed. Definitive criteria are presented for choosing the limits of peak start and peak end such that a fixed error level may be predetermined by correctly choosing the number of data points between the limits of integration. In this manner, the rate of analog-to-digital conversion may also be optimized. The effect of noise on the precision of the moment measurements is shown and correlated with the limits of integration
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