Design features of on-board air-based hyperspectrometers AIS

1Donets, VV
1Corporation «Research and Production Enterprise «Arsenal», Kyiv, Ukraine
Kosm. nauka tehnol. 2012, 18 ;(5):05–11
Publication Language: Russian
Some design features of the on-board air-based hyperspectrometers AIS-1 and AIS-2 for spectrometric remote sensing of the Earth’s surface and for satellite data validation are considered. The technological advances realized and approved in the case of the hyperspectrometers AIS are used for the spacebased hyperspectrometers SISEX (1990) and HIRIS (1994).
Keywords: air-based hyperspectrometers AIS
1.  Andrianov V. Yu. English-Russian Dictionary of geoinformatics. Retrieved from [in Russian].
2. Donets V.V. Substantiation of the Structure of hardware-software for remote sensing of vegetation in the field: Extended abstract of candidate’s thesis. 19 p. (Kyiv, 2010) [in Ukrainian].
3. Donets V. V., Ponomarenko S. O., Yatsenko V. O. Two-channel for unmanned aviation vehicles hiperspectrometer.  Actual problems of aviation technology: Jubilee Sci.-pract. Conf.: Abstracts, 7—8 April, 2011, Kyiv, P. 39 (Kyiv, 2011).
4. Kovrov A. Hyperspectral equipment for airborne remote sensing. Retrieved from
5. Schowengerdt R.A. Remote Sensing. Models and Methods for Image Processing, 560 p. (Tehnosfera, Moscow, 2010) [in Russian].
6. Bergman S. M. The utility of hyperspectral data to detect and discriminate actual and decoy target vehicles. (Lieutenant, United States Navy B. A., University of New Mexico, 1989).   Retrieved from
7. Chapter 1. The Nature of Remote Sensing (Remote Sensing Models and Mechods for Imaging Processing by Robert Schowengerdt.  (USA, 2007).  Retrieved from bookscat/samples/9780123694072/9780123694072.PDF
8. Dozier J., Goets A. F. H. HIRIS-Eos instrument with high spectral and spatial resolution.  Photogrammetria, 43, 167—180 (1989).  Retrieved from DozierGoetz1989.pdf
9. Fay M. E. An analysis of hyperspectral imagery data collecte during operation desert radiance. (Monterey, California, 1995).  Retrieved from
10. Goetz A. F. H. Shuttle imaging spectrometer experiment.  Proc. Pecora VIII Symp.: Satellite Land Remote Sensing Advancements for the Eighties,  P. 355 (Augustana Coll, Sioux Falls., ND, USA, 1983).
11. Goetz A. F. H. The portable instant display and analysis spectrometer (PIDAS).  Proceedings of the Third Airborne Imaging Spectrometer Data Analysis Workshop. JPL Publication N 88-13756, 87–30, P. 8— 17 (1987).  Retrieved from 19880004374_1988004374.pdf
12. Goetz A. F. H. The High Resolution Imaging Spectrometer (HIRIS) facility instrument for the first polar orbiting platform. Quantitative remote sensing: An economic tool for the Nineties; Proceedings of IGARSS '89 and Canadian Symposium on Remote Sensing, 12th, Vancouver, Canada, July 10—14, 1989.  Vol. 5 (A91-15476 04-43), P. 2922—2924.  Retrieved from
13. Goetz A. F. H. Imaging Spectrometry for Studying Earth, Air, Fire and Water.  Earsel Adv. Remote Sens., 1 (1), 3—15 (1991).  Retrieved from
14. Goetz A. F. H. Imaging spectrometry for Earth observations.  Episodes, 15 (1), 7—14 (1992).; in  Retrieved from episodes/www/ backissues/151/Articles-7.pdf, in/www/backissues/151/Articles-7.pdf
15. Goetz A. F. H. Three decades of hyperspectral remote sensing of the Earth: A personal view.  Remote Sens. Environ., 113, P. S5—S16 (2009).  Retrieved from harvey/Gamblin/IDL_code/Geotz_2009.pdf
16. Goetz A. F. H., Herring M. High Resolution Imaging Spectrometer (HIRIS) for EOS.  Digest - International Geoscience and Remote Sensing Symposium (IGARSS), 367—372 (1987).
17. Goetz A. F. H., Vane G., Soloman J. E., Rock B. N. Imaging spectrometry of Earth remote sensing.  Science, 228 (4704), 1147—1153 (1985).
18. MacDonald J.,UstinS. L., Schaepman M. A review of the contributions of Dr. Alexander F. H. Goetz to imaging spectrometry.  Retrieved from
19. MacDonald J. S.,Ustin S. L., Schaepman M. E. The contributions of Dr. Alexander F. H. Goetz to imaging spectrometry.  Remote Sens. Environ., 113, P. S2—S4 (2009).  Retrieved from microsite/rsl-documents/research/Spectrolab/Publications/peer-reviewed-articles/2009_Goetz_RSE_JMD-2584960768/2009_Goetz_RSE_JMD.pdf
20. Sanders L. C. An atmospheric correction algorithm for hyperspectral imagery: A dissertation. (September 1999).  Retrieved from http://
21. Vane G., Goetz A. F. H. Proceedings of the Airbore Imaging Spectrometer.  Data Analysis Workshop April 8—10, 1985, JPL publication 85-41 (June 15, 1985). Retrieved from
22. Vane G., Goetz A. F. H. Introduction to the proceedings of the second airborne imaging spectrometer (AIS) data analysis workshop.  Proceedings of the Second Airbore Imaging Spectrometer Data Analysis Workshop May 6 — 8, 1986, JPL publication 86-35, P. 1—16 (August 15, 1986). Retrieved from
23. Vane G., Goetz A. F. H. Terrestrial Imaging Spectroscopy.  Remote Sens. Environ.  24, 1—29 (1988). Retrieved from SHORE/pdf/RSE_Vane_Goetz_HRS_1988.pdf
24. Vane G., Goetz A. F. H., Wellman J. B. Airborne imaging spectrometer: a new tool for remote sensing.  Proc. 1983 Int’l. Geoscience and Remote Sensing Symp., IEEE Cat N 83 CH1837-4 (1983).

25. Vane G., Goetz A. F. H., Wellman J. B. Airborne Imaging Spectrometer: A new tool for earth remote sensing.  IEEE Trans. Geosci. and Remote Sens, GE-22 (6), 546—549 (1984).