31 December 1996 Kestrel's new FTVHSI instrument for hyperspectral remote sensing from light aircraft
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Abstract
During the past year, Kestrel Corporation has designed and built a low cost Fourier transform visible hyperspectral imager (FTVHSI) for deployment in a light aircraft (Cessna TU-206). The instrument is an imaging spectrometer employing a Sagnac (triangle) interferometer, that operates over a range of 450 - 1050 nm with 256 spectral channels, and a 13 degree FOV with an 0.8 mrad pixel IFOV (450 spatial channels). To aid in the calibration of the instrument, calibration and downwelling signals are recorded with every frame. Installed with the optical instrument are attitude sensors and a scene camera. This auxiliary data allows us to place a hyperspectral slice to within less than 5 m of its true position (using selective availability 'on' and differential GPS). We have performed extensive testing and calibration studies, including data collection conducted synchronously with ground measurements at locations including a White Sands radiometric calibration site. This paper reports some of the calibration studies and their results.
© (1996) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Andrew D. Meigs, Andrew D. Meigs, Eugene W. Butler, Eugene W. Butler, Bernard Al Jones, Bernard Al Jones, Leonard John Otten, Leonard John Otten, R. Glenn Sellar, R. Glenn Sellar, Bruce Rafert, Bruce Rafert, John R. O'Hair, John R. O'Hair, } "Kestrel's new FTVHSI instrument for hyperspectral remote sensing from light aircraft", Proc. SPIE 2960, Remote Sensing for Geography, Geology, Land Planning, and Cultural Heritage, (31 December 1996); doi: 10.1117/12.262468; https://doi.org/10.1117/12.262468
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