Journal of Astronomy and Space Sciences

The Korean Space Science Society (한국우주과학회)
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DESIGN AND IMPLEMENTATION OF THE MISSION PLANNING FUNCTIONS FOR THE KOMPSAT-2 MISSION CONTROL ELEMENT

  • Published : 2003.09.01
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Abstract

Spacecraft mission planning functions including event prediction, mission scheduling, command planning, and ground track display have been developed for the KOMPSAT-2 mission operations. Integrated event prediction functions including satellite orbital events, user requested imaging events, and satellite operational events have been implemented. Mission scheduling functions have been realized to detect the mission conflicts considering the user specified constraints and resources, A conflict free mission scheduling result is mapped into the spacecraft command sequences in the command planning functions. The command sequences are directly linked to the spacecraft operations using eXtensible Markup Language(XML) for command transmission. Ground track display shows the satellite ground trace and mission activities on a digitized world map with zoom capability.

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References

  1. Dimitrov, S. A., & Galiber, F. 1998, Visualizing Satellite Mission Planning Problem, The 4th ILOG International User Meeting, http://www.veridian.com/offerings/documents/ilog_ilata_vis.pdf
  2. Galiber, F., & Dimitrov, S. A 1998, A Satellite Mission Planning Framework, The 4th ILOG International User Meeting, http://www.veridian.com/offerings/documents/ilog_opt.pdf
  3. Jung, W.-C., Mo, H.-S., & Kim, J.-H. 2002, Design of Satellite Operations Subsystem for KOMPSAT2 (in Korean), Proceedings of the KSAS Fall Annual Meeting 2002, pp.515-518
  4. Kim, E.-H., Kim, H.-S., & Lee, S.-R. 2003, Phased Orbit of KOMPSAT-2 (in Korean), Proceedings of the KSAS Spring Annual Meeting 2003, pp.547-550
  5. Kruchten, P. B. 1995, The 4+ 1 View Model of Architecture, IEEE Software, pp.42-50
  6. Lee, B.-S. 2000, Analysis of the Ground Station Pass Time for the KOMPSAT-1 and KOMPSAT-2 (in Korean), ETRI TM2200-2000-124
  7. Lee, B.-S., Lee, J.-S., & Kim, J.-H. 2002a, Design of the Mission Analysis and Planning Subsystem for the KOMPSAT-2, Proceedings of the KSAS Fall Annual Meeting 2002, pp.523-526
  8. Lee, B.-S., Lee, J.-S., Mo, H.-S., & Kim, J.-H. 2002b, Low Earth Orbit Satellite Command Planning Apparatus, Command Planning Method and Low Earth Orbit Satellite Control System Composing the Same (in Korean), Korea Patent Pending 10-2002-0074682
  9. Lee, J.-S., Lee, B.-S., Kim, J.-H., Lee, S.-P., Yoon, J.-C., Moon, B.-Y., Roh, K.-M., Park, E.-S., & Choi, K.-H. 2002c, Precise Orbit Determination By oors Technique for the Korea MultiPurpose Satellite-2, Space Operations 2002, Houston, TX, T3-05
  10. Lee, S., Cho, S., & Kim, J.-H. 2002d, Design of the Simulator System for the KOMPSAT-2 (in Korean), Proceedings of the KSAS Fall Annual Meeting 2002, pp.519-522
  11. Pooley, R., & Stevens, P. 1999, Using UML - Software Engineering with Objects and Components (Harlow: Addison-Wesley)
  12. Trolltech, 2003, Qt 3.1 Whitepaper, http://www.trolltech.comlproducts/qtJwhitepaper/qt-whitepaper.html

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