Issue 2, 2011

Synthetic training sets for the development of discriminant functions for the detection of volatile organic compounds from passive infrared remote sensing data

Abstract

A novel synthetic data generation methodology is described for use in the development of pattern recognition classifiers that are employed for the automated detection of volatile organic compounds (VOCs) during infrared remote sensing measurements. The approach used is passive Fourier transform infrared spectrometry implemented in a downward-looking mode on an aircraft platform. A key issue in developing this methodology in practice is the need for example data that can be used to train the classifiers. To replace the time-consuming and costly collection of training data in the field, this work implements a strategy for taking laboratory analyte spectra and superimposing them on background spectra collected from the air. The resulting synthetic spectra can be used to train the classifiers. This methodology is tested by developing classifiers for ethanol and methanol, two prevalent VOCs in wide industrial use. The classifiers are successfully tested with data collected from the aircraft during controlled releases of ethanol and during a methanol release from an industrial facility. For both ethanol and methanol, missed detections in the aircraft data are in the range of 4 to 5%, with false positive detections ranging from 0.1 to 0.3%.

Graphical abstract: Synthetic training sets for the development of discriminant functions for the detection of volatile organic compounds from passive infrared remote sensing data

Article information

Article type
Paper
Submitted
19 Feb 2010
Accepted
25 Aug 2010
First published
18 Oct 2010

Analyst, 2011,136, 309-316

Synthetic training sets for the development of discriminant functions for the detection of volatile organic compounds from passive infrared remote sensing data

B. Wan and G. W. Small, Analyst, 2011, 136, 309 DOI: 10.1039/C0AN00103A

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