There are no author-identified significant results in this report. A technique has been investigated that is particularly applicable to evaluation of earth-orbiting multispectral sensors. In all programs employing such sensors, simultaneous underflight photography from aircraft is made during passes of the spacecraft. To evaluate the spacecraft imagery, the two sets of photographs are scanned and digitized with a microdensitometer. The data are then Fourier analyzed, and the spatial frequency spectra is calculated. The spatial frequencies in the underflight trace are scaled to those in the spacecraft trace, and the ratio of the spectra gives the in-flight optical transfer function (OTF) for the orbiting sensor. The method has been applied to an Apollo 9 frame and the sensor OTF has been calculated. The results are good enough to encourage use of the technique and to indicate the accuracies required of the various measurements involved in determining in-flight sensor OTF by this method. A technique for determining correct scan registration and scaling between the two sets of imagery and a promising approach to noise reduction, in the form of weighted averaging of OTF's, are discussed.
Determination of the inflight OTF of orbital earth resources sensors
Congr. of the Intern. Comm. for Optics ; 1972 ; Santa Monica, CA, United States
01.10.1972
Aufsatz (Konferenz)
Keine Angabe
Englisch
Inflight Evaluation of L Band SAR of Japanese Earth Resources Satellite-1
Online Contents | 1994
|Inflight Evaluation of L Band SAR of Japanese Earth Resources Satellite-1
British Library Conference Proceedings | 1993
|NTIS | 1988
|NTRS | 1966
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