Journal of Astronomy and Space Sciences

The Korean Space Science Society (한국우주과학회)
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Study on the Preliminary Design of ARGO-M Operation System

  • Received : 2010.09.10
  • Accepted : 2010.10.18
  • Published : 2010.12.15
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Abstract

Korea Astronomy and Space Science Institute has been developing one mobile satellite laser ranging system named as accurate ranging system for geodetic observation-mobile (ARGO-M). Preliminary design of ARGO-M operation system (AOS) which is one of the ARGO-M subsystems was completed in 2009. Preliminary design results are applied to the following development phase by performing detailed design with analysis of pre-defined requirements and analysis of the derived specifications. This paper addresses the preliminary design of the whole AOS. The design results in operation and control part which is a key part in the operation system are described in detail. Analysis results of the interface between operation-supporting hardware and the control computer are summarized, which is necessary in defining the requirements for the operation-supporting hardware. Results of this study are expected to be used in the critical design phase to finalize the design process.

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References

  1. Honeywell Technology Solutions Inc. 2010, Honeywell Technology Solutions Incorporated Technical Document (Laser Hazard Reduction System for the Korea Astronomy & Space Science Institute)
  2. IBM. 2009, IBM Software Group Technical Document (Essentials of Visual Modeling with UML 2.0 Module 2: Principles of Visual Modeling)
  3. Lim, H. C., Seo, Y. K., Na, J. K., Bang, S. C., Lee, J. Y., Cho, J. H., Park, J. H., & Park, J. U. 2010, JASS, 27, 245, doi: 10.5140/JASS.2010.27.3.245
  4. McGarry, J., Zagwodzki, T., Varghese, T., Degnan, J., Cheek, J., Clarke, C., Dunn, P., Mallama, A., Mann, A., Patterson, D., & Ricklefs, R. 2008, in Proceedings of the 16th International Workshop on Laser Ranging, ed. Stanislaw Schillak (Poznan: Drukarnia Oswiatowa), pp.326-331
  5. Park, P. H., Park, J. U., Lim, H. C., Cho, S. K., Jang, J. K., Min, B. H., & Han, J. Y. 2005, Korea Astronomy and Space Science Institute Project Document (Development of fundamental technology on satellite tracking and space surveillance system using SLR)
  6. Seo, Y. K., Rew, D. Y., Lim, H. C., Park, I. K., Yim, H. S., Jo, J. H., & Park, J. U. 2009, JASS, 26, 643, doi: 10.5140/JASS.2009.26.4.643
  7. Song, Y. J., Kim, G. J., Byun, J. W., Seo, Y. J., Choi, H. Y., & Han, J. S. 2004, Software Engineering Based on Object Oriented Modeling and CBD (Goyang: Ehan Publishing), p.120
  8. Symmetricom Inc. 2008, Symmetricom Inc. Technical Document (Xli Time and Frequency System)
  9. Youn, C. 2009, Software Engineering through Paradigm Shift (Paju: Sangnung Publishing), p.266

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