1 July 1999 Image quality and [lambda]FN/p for remote sensing systems
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Optical Engineering, 38(7), (1999). doi:10.1117/1.602169
Abstract
The ratio of the sampling frequency to the optical bandpass limit of an incoherent diffraction-limited optical system is a fundamental design parameter for digital imaging systems. This ratio is denoted by ?FN/p, where ? is the mean wavelength, FN is the system f/number, and p is the detector sampling pitch. The value of ?FN/p for a remote sensing system can have a profound impact on the image quality and the utility of the acquired images. The interaction between ?FN/p and image quality is sensitive to the system design parameters such as modulation transfer function (MTF), signal-to-noise ratio (SNR), and ground sampled distance (GSD). Image simulations and analysis are presented that illustrate the changes in image quality as a function of ?FN/p. System design trades that may influence the determination of the optimal lFN/p for a remote sensing system are also discussed.
Robert D. Fiete, "Image quality and [lambda]FN/p for remote sensing systems," Optical Engineering 38(7), (1 July 1999). http://dx.doi.org/10.1117/1.602169
JOURNAL ARTICLE
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KEYWORDS
Image quality

Sensors

Signal to noise ratio

Modulation transfer functions

Remote sensing

Satellites

Sensing systems

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