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Observational Arc-Length Effect on Orbit Determination for KPLO Using a Sequential Estimation Technique KCI 등재 SCOPUS

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  • URLhttps://db.koreascholar.com/Article/Detail/365001
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한국우주과학회 (The Korean Space Science Society)
초록

In this study, orbit determination (OD) simulation for the Korea Pathfinder Lunar Orbiter (KPLO) was accomplished for investigation of the observational arc-length effect using a sequential estimation algorithm. A lunar polar orbit located at 100 km altitude and 90° inclination was mainly considered for the KPLO mission operation phase. For measurement simulation and OD for KPLO, the Analytical Graphics Inc. Systems Tool Kit 11 and Orbit Determination Tool Kit 6 software were utilized. Three deep-space ground stations, including two deep space network (DSN) antennas and the Korea Deep Space Antenna, were configured for the OD simulation. To investigate the arc-length effect on OD, 60-hr, 48-hr, 24-hr, and 12-hr tracking data were prepared. Position uncertainty by error covariance and orbit overlap precision were used for OD performance evaluation. Additionally, orbit prediction (OP) accuracy was also assessed by the position difference between the estimated and true orbits. Finally, we concluded that the 48-hr-based OD strategy is suitable for effective flight dynamics operation of KPLO. This work suggests a useful guideline for the OD strategy of KPLO mission planning and operation during the nominal lunar orbits phase.

목차
1. INTRODUCTION
 2. MEASUREMENT SIMULATION
 3. ORBIT DETERMINATION
 4. RESULTS
 5. CONCLUSIONS
 REFERENCES
저자
  • Young-Rok Kim(Korea Aerospace Research Institute) Corresponding Author
  • Young-Joo Song(Korea Aerospace Research Institute)
  • Jonghee Bae(Korea Aerospace Research Institute)
  • Seok-Weon Choi(Korea Aerospace Research Institute)