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Proceedings Paper

Minimum Resolvable Temperature Predictions, Test Methodology, And Data Analysis
Author(s): Gerald C. Holst
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Paper Abstract

In its current form, the NVL model does not adequately predict the laboratory measured minimum resolvable temperature (MRT) values at low or high spatial frequencies. The differences between the measured and the predicted values are caused by inappropriate modeling of the eye, tremendous variability in observers, and ill-defined data analysis methodology. In the usual laboratory procedure, the observer is allowed to move his head. This, in effect, removes the eye's response from the model because by adjusting his viewing distance, the observer appears to achieve equal detection capability at all spatial frequencies. Threshold detection can vary significantly from observer to observer and from session to session. For a large population, the detection process can be described by a log-normal distribution, and the mean MRT is the geometric average of the individual MRT responses. Geometrically averaged MRT data from three different common module-based, digital scan-converted forward-looking infrared (FLIR) systems have been compared to theoretical values. The modulation transfer function (MTF) of each FLIR was calculated using the same equations found in the NVL model. The theoretical MRT curves fit the experimental MRT data when MRT = 0.7*NEDT/MTF. For one FLIR system, the MTF was experimentally obtained by taking the Fourier transform of a slit response. The resultant MTF matched theory extremely well and therefore an objective MRT test was established.

Paper Details

Date Published: 8 January 1990
PDF: 12 pages
Proc. SPIE 1157, Infrared Technology XV, (8 January 1990); doi: 10.1117/12.978597
Show Author Affiliations
Gerald C. Holst, Martin Marietta Electronic Systems (United States)


Published in SPIE Proceedings Vol. 1157:
Infrared Technology XV
Irving J. Spiro, Editor(s)

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