Journal of Institute of Control, Robotics and Systems (제어로봇시스템학회논문지)

Institute of Control, Robotics and Systems (제어로봇시스템학회)
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Monitoring System Design for the GPS/INS Integrated Navigation System

GPS/INS 통합 항법 시스템용 모니터링 시스템 설계

  • Published : 2003.03.01
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Abstract

We propose the monitoring system scheme for the CPS/INS integrated navigation system. The design requirements of the monitoring system are suggested and the software scheme based on GUI is proposed. The proposed monitoring system consists of an I/O interface part, a navigation data display part, and a post-processing part. The I/O interface part is responsible for data communication between the monitoring system and a navigation computer unit. The navigation data display part provides various display methods to show the navigation data to user in real-time. The post-processing part collects the navigation data to analyze the performance of navigation system. The proposed monitoring system software was developed using the Visual C++ programming language and a van test was carried out to demonstrate the real-time operation of the monitoring system. The test result shows that the proposed monitoring system can be effectively applied to the CPS/INS integrated navigation system.

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References

  1. G. M. Siouris, Aerospace Avionics Systems, Academic Press, San Diego, California, 1993
  2. C. R. Spitzer, The Avionics Handbook, Editor, CRC Press, Boca Raton, Florida, 2001
  3. S. Stanfield, Visual C++ How-To, 에프원, 서울, 1996
  4. 이상엽, Visual C++ Programming Bible, 영진출판사, 서울, 1997
  5. 최영완, '최적의 UI 설계 가이드' 월간 프로그램세계, pp. 212-227, 11, 1999
  6. 김형중, 최명환, 김형수, 최병욱, '가상현실 기술을 이용한 차량항법장치 GUI 설계,' '97 한국자동제어 학술회의 논문집, pp. 980-983, 1997
  7. DoD, MIL-D-70789A(AR) Military Specification Dynamic Reference Unit (DRU), Department of Defence, USA, August 18, 1997
  8. ARINC, Mark 33 Digital Information Transfer System Part 1. Functional Desciption, Electrical Interface, Label Assignments and Word Format, ARINC Specification 429P1-15, Aeronautical Radio, Inc., Annapolis, Maryland, September 1, 1995
  9. R. L. Greenspan, 'GPS and Inertial Integration,' in Global Positioning System: Theory and Application II, AIAA, Washington DC, pp. 187-220, 1996
  10. D. C. Moya, J. J. Elchynski, 'Evaluation of the World Smallest Integrated Embedded GPS/INS, the H-764G,' Proceedings of the ION GPS '92, pp. 59-102, 1997
  11. M. K. Martin, B. C. Detterich, 'C-MIGIT II Design and Performance,' Proceedings of the ION GPS '97, pp. 59-102, 1997
  12. 김종혁, 문승욱, 김세환, 황동환, 이상정, 나성웅, 오문수, '약결합 방식의 GPS/INS 통합 시스템의 구현,' 한국 군사 과학 기술 학회지 제 2 권, 제 2호, pp. 186-196, 2, 1999
  13. S. W. Moon, J. H. Kim, D.-H. Hwang, S.-W. Ra and S. J. Lee, 'Implementation of a Loosely-Coupled GPS/INS Integration System,' Proceedings of the 4th International Symposium on Satellite Navigation Technology and Applications, Brisbane, Queensland, Australia, July 20-23, 1999
  14. S. W. Moon, D.-H. Hwang, T. K. Sung and S. J. Lee, 'Design and Implementation of an Efficient Tightly Coupled GPS/INS Integration Scheme,' Proceedings of the ION2000 National Technical Meeting, January 2000
  15. D. B. Cox, 'Integration of GPS with Inertial Navigation Systems,' reprinted in Collected GPS Papers, vol. 1, pp. 144-153, Institute of Navigation, Alexandria, Virginia, 1980
  16. R. E. Philips, G. T. Schmidt, 'GPS/INS Integration,' AGARD Lecture Series 207, France, July 1-2, 1996