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http://dx.doi.org/10.5140/JASS.2013.30.3.193

Development of a Data Reduction algorithm for Optical Wide Field Patrol  

Park, Sun-Youp (Space Situational Awareness Center, Korea Astronomy and Space Science Institute)
Keum, Kang-Hoon (School of Space Research, Kyung Hee University)
Lee, Seong-Whan (School of Space Research, Kyung Hee University)
Jin, Ho (School of Space Research, Kyung Hee University)
Park, Yung-Sik (Space Situational Awareness Center, Korea Astronomy and Space Science Institute)
Yim, Hong-Suh (Space Situational Awareness Center, Korea Astronomy and Space Science Institute)
Jo, Jung Hyun (Space Situational Awareness Center, Korea Astronomy and Space Science Institute)
Moon, Hong-Kyu (Space Situational Awareness Center, Korea Astronomy and Space Science Institute)
Bae, Young-Ho (Space Situational Awareness Center, Korea Astronomy and Space Science Institute)
Choi, Jin (Space Situational Awareness Center, Korea Astronomy and Space Science Institute)
Choi, Young-Jun (Space Situational Awareness Center, Korea Astronomy and Space Science Institute)
Park, Jang-Hyun (Space Situational Awareness Center, Korea Astronomy and Space Science Institute)
Lee, Jung-Ho (URainbow, Inc.)
Publication Information
Journal of Astronomy and Space Sciences / v.30, no.3, 2013 , pp. 193-206 More about this Journal
Abstract
The detector subsystem of the Optical Wide-field Patrol (OWL) network efficiently acquires the position and time information of moving objects such as artificial satellites through its chopper system, which consists of 4 blades in front of the CCD camera. Using this system, it is possible to get more position data with the same exposure time by changing the streaks of the moving objects into many pieces with the fast rotating blades during sidereal tracking. At the same time, the time data from the rotating chopper can be acquired by the time tagger connected to the photo diode. To analyze the orbits of the targets detected in the image data of such a system, a sequential procedure of determining the positions of separated streak lines was developed that involved calculating the World Coordinate System (WCS) solution to transform the positions into equatorial coordinate systems, and finally combining the time log records from the time tagger with the transformed position data. We introduce this procedure and the preliminary results of the application of this procedure to the test observation images.
Keywords
data reduction; algorithm; optical; wide field;
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1 Greisen EW, Calabretta MR, Representations of world coordinates in FITS, A&A, 1061-1075 (2002). http://dx.doi.org/10.1051/0004-6361:20021326   DOI   ScienceOn
2 Groth EJ, A pattern-matching algorithm for two-dimensional coordinate lists, AJ, 91, 1244-1248 (1986). http://dx.doi.org/10.1086/114099   DOI
3 Jenkner H, Lasker BM, Sturch CR, McLean BJ, et al., The Guide Star Catalog. III. Production, database organization, and population statistics, AJ, 99, 2082-2254 (1990). http://dx.doi.org/10.1086/115485   DOI
4 Lasker BM, Sturch CR, McLean BJ, Russel JL, et al., The Guide Star Catalog. I. Astronomical foundations and image processing, AJ, 99, 2019-2178 (1990). http://dx.doi.org/10.1086/115483   DOI
5 Levesque MP, Buteau S, Image processing technique for automatic detection of satellite streaks, DRDC Valcartier TR 2005-386 (2007).
6 Mink DJ, WCSTools: Image World Coordinate System Utilities, ASPC, 125, 249-252 (1997).
7 Montojo FJ, Lopez Moratalla T, Abad C, Astrometric positioning and orbit determination of geostationary satellites, AdSpR, 47, 1043-1053 (2011). http://dx.doi.org/10.1016/j.asr.2010.11.025   DOI   ScienceOn
8 Press WH, Teukolsky SA, VetterlingWT, Flannery BP, Numerical Recipes in C, 2nd Ed. (Cambridge University Press, Cambridge, 2005), 408-412
9 Russel JL, Lasker BM, McLean BJ, Sturch CR, et al., The Guide Star Catalog. II. Photometric and astrometric models and solutions, AJ, 99, 2059-2081 (1990). http://dx.doi.org/10.1086/115484   DOI
10 Valdes F, The Interactive Data Reduction and Analysis Facility (IRAF), BAAS, 16, 497 (1984).
11 Calabretta MR, Greisen EW, Representations of celestial coordinates in FITS, A&A, 1077-1122 (2002). http://dx.doi.org/10.1051/0004-6361:20021327   DOI   ScienceOn
12 Bertin E, SExtractor v2.5 User's manual, Institut d'Astrophysique & Observatoire de Paris (2006).
13 Bertin E, Arnouts S, SExtractor: Software for source extraction, A&AS, 117, 393-404 (1996).   DOI   ScienceOn