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Proceedings Paper

Image quality analysis of a spectra-radiometric sparse-aperture model
Author(s): Noah R Block; Robert E Introne; John R Schott
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Paper Abstract

Sparse aperture (SA) telescopes represent a promising technology to increase the effective diameter of an optical system while reducing overall weight and stowable size. Although conceptually explored in the literature for decades, the technology has only recently matured to the point of being reasonably considered for certain applications. In general, a sparse aperture system consists of an array of sub-apertures that are phased to synthesize a larger effective aperture. The models used to date to create predictions of sparse aperture imagery typically make use of a "gray world" assumption, where the input is a resampled black and white panchromatic image. This input is then degraded and resampled with a so-called polychromatic system optical transfer function (OTF), which is a weighted average of the OTFs over the spectral bandpass. In reality, a physical OTF is spectrally dependent, exhibiting varying structure with spatial frequency (especially in the presence of optical aberrations or sub-aperture phase errors). Given this spectral variation with spatial frequency, there is some concern the traditional gray world resampling approach may not address significant features of the image quality associated with sparse aperture systems. This research investigates the subject of how the image quality of a sparse aperture system varies with respect to a conventional telescope from a spectra-radiometric perspective, with emphasis on whether the restored sparse aperture image will be beset by spectral artifacts.

Paper Details

Date Published: 1 September 2004
PDF: 12 pages
Proc. SPIE 5418, Spaceborne Sensors, (1 September 2004); doi: 10.1117/12.542419
Show Author Affiliations
Noah R Block, Rochester Institute of Technology (United States)
Robert E Introne, Rochester Institute of Technology (United States)
John R Schott, Rochester Institute of Technology (United States)


Published in SPIE Proceedings Vol. 5418:
Spaceborne Sensors
Robert D. Habbit; Peter Tchoryk, Editor(s)

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