• 제목/요약/키워드: satellite orbit

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위성의 전이궤도 열해석 (TRANSFER ORBIT THERMAL ANALYSIS FOR SATELLITE)

  • 전형열;김정훈;김성훈;양군호
    • 한국전산유체공학회:학술대회논문집
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    • 한국전산유체공학회 2007년도 추계 학술대회논문집
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    • pp.227-231
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    • 2007
  • COMS (Communication, Ocean and Meteorological Satellite) is a geostationary satellite and has been developing by KARI for communication and ocean and meteorological observations. It will be launched by ARIANE 5. Ka-band components are installed on South panel, where single solar array wing is mounted. Radiators, embedded heat pipes, external heat pipe, insulation blankets and heaters are utilized for the thermal control of the satellite. The Ka-band payload section is divided several areas based on unit operating temperature in order to optimize radiator area and maximize heat rejection capability. Other equipment for sensors and bus are installed on North panel. The ocean and meteorological sensors are installed on optical benches on the top floor to decouple thermally from the satellite. During the transfer orbit operation, satellite will be under severe thermal environments due to low dissipation of components, satellite attitudes and LAE(Liquid Apogee Engine) firing. This paper presents temperature and heater power prediction and validation of thermal control design during transfer orbit operation.

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KOMPSAT-1 Satellite Orbit Control using GPS Data

  • Lee, Jin-Ho;Baek, Myuog-Jin;Koo, Ja-Chun;Yong, Ki-Lyuk;Chang, Young-Keun
    • International Journal of Aeronautical and Space Sciences
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    • 제1권2호
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    • pp.43-49
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    • 2000
  • The Global Positioning System (GPS) is becoming more attractive navigation means for LEO (Low Earth Orbit) spacecraft due to the data accuracy and convenience for utilization. The anomalies such as serious variations of Dilution-Of-Precision (DOP), loss of infrequent 3-dimensional position fix, and deterioration of instantaneous accuracy of position and velocity data could be observed, which have not been appeared during the ground testing. It may cause lots of difficulty for the processing of the orbit control algorithm using the GPS data. In this paper, the characteristics of the GPS data were analyzed according to the configuration of GPS receiver such as position fix algorithm and mask angle using GPS navigation data obtained from the first Korea Multi-Purpose Satellite (KOMPSAT). The problem in orbit tracking using GPS data, including the infrequent deterioration of the accuracy, and an efficient algorithm for its countermeasures has also been introduced. The reliability and efficiency of the modified algorithm were verified by analyzing the effect of the results between algorithm simulation using KOMPSAT flight data and ground simulator.

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SLR을 이용한 GPS-36 위성의 정밀 궤도 결정 (PRECISE OR81T DETERMINATION OF GPS-36 SATELLITE USING SATELLITE LASER RANGING)

  • 임형철;박관동;박필호;박종욱;조정호
    • Journal of Astronomy and Space Sciences
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    • 제19권4호
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    • pp.385-394
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    • 2002
  • SLR(Satellite Laser Ranging)은 위성과 관측소간 거리를 가장 정밀하게 측정할 수 있는 시스템이다. 1964년 발사된 Beacon-B 위성의 궤도결정을 위해 SLR 기술이 처음 사용되었는데 거리측정 정밀도가 m 수준이었다. 현재 single shot 정밀도는 cm, NP(Normal Point)는 mm수준으로 발전하였다. 이 연구에서는 SLR을 이용한 궤도결정 알고리즘을 개발하여 GPS(Global Positioning System)-36위성의 정밀 궤도를 결정하였다. 알고리즘의 정밀도를 검증하기 위해 산출한 정밀 궤도를 IGS(International GPS Service)에서 제공하는 정밀 궤도력과 비교하였는데 74cm의 RMS(Root Mean Square)를 얻었다. 또한, SLR 시스템의 관측잔차 RMS는 55mm 미만으로 알려져 있지만 이 연구에서는 44mm 결과를 얻을 수 있었다.

정지궤도위성 탑재용 실시간 궤도요소 생성기 (On-board Realtime Orbit Parameter Generator for Geostationary Satellite)

  • 박봉규;양군호
    • 항공우주기술
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    • 제8권2호
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    • pp.61-67
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    • 2009
  • 본 논문은 정지궤도위성에 탑재 가능한 저 계산량의 궤도데이터 생성 알고리즘을 제안하고 있다. 제안하는 알고리즘의 기본적인 개념은 지상에서 생성된 기준궤도에 대한 변위 정보를 48시간에 대하여 30분 간격으로 생성한 다음, 위성에 업로드 한다. 위성에서는 업로드된 변위정보를 테이블 형태로 저장하고, 원하는 시간에 근접한 세 개의 데이터 셋을 취한 다음 이차함수 보간법 적용하여 원하는 시간에 대한 변위정보를 계산한다. 생성된 변위 정보는 다시 기준궤도에 더해져 최종적인 궤도성분을 복구하도록 한다. 여기서 기준궤도는 이심율과 궤도 경사각이 0인 이상적인 정지궤도를 의미한다. 본 알고리즘을 이용할 경우 1Hz이상의 속도로 궤도정보를 생성하여 요구하는 탑재체에 공급 할 수 있는 장점이 있다. 본 알고리즘은 48시간에 대한 궤도 변위 정보를 저장하기 위하여 3킬로바이트 이내의 추가적인 메모리를 요구한다. 이러한 수치는 정지궤도위성에서 충분히 지원 가능한 수치로 판단된다.

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Modeling Satellite Orbital Segments using Orbit-Attitude Models

  • Kim Tae-Jung
    • 대한원격탐사학회지
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    • 제22권1호
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    • pp.63-73
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    • 2006
  • Currently, in order to achieve accurate geolocation of satellite images we need to generate control points from individual scenes. This requirement increases the cost and processing time of satellite mapping greatly. In this paper we investigate the feasibility of modeling entire image strips that has been acquired from the same orbital segments. We tested sensor models based on satellite orbit and attitude with different sets of unknowns. We checked the accuracy of orbit modeling by establishing sensor models of one scene using control points extracted from the scene and by applying the models to adjacent scenes within the same orbital segments. Results indicated that modeling of individual scenes with $2^{nd}$ order unknowns was recommended. In this case, unknown parameters were position biases, drifts, accelerations and attitude biases. Results also indicated that modeling of orbital segments with zero-degree unknowns was recommended. In this case, unknown parameters were attitude biases.

Operational Report of the Mission Analysis and Planning System for the KOMPSAT-I

  • Lee, Byoung-Sun;Lee, Jeong-Sook;Kim, Jae-Hoon;Lee, Seong-Pal;Kim, Hae-Dong;Kim, Eun-Kyou;Park, Hae-Jin
    • 한국우주과학회:학술대회논문집(한국우주과학회보)
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    • 한국우주과학회 2003년도 한국우주과학회보 제12권2호
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    • pp.46-46
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    • 2003
  • Since its launching on 21 December 1999, the KOrea Multi-Purpose SATellite-Ⅰ (KOMPSAT-Ⅰ) has been successfully operated by the Mission Control Element (MCE), which was developed by the Electronics and Telecommunications Research Institute (ETRI). Most of the major functions of the MCE have been successfully demonstrated and verified during the three years of the mission life of the satellite. The Mission Analysis and Planning Subsystem (MAPS), which is one of the four subsystems in the MCE, played a key role in the Launch and Early Orbit Phase (LEOP) operations as well as the on-orbit mission operations. This paper presents the operational performances of the various functions in MAPS. We show the performance and analysis of orbit determinations using ground-based tracking data and GPS navigation solutions. We present four instances of the orbit maneuvers that guided the spacecraft from injection orbit into the nominal on-orbit. We include the ground-based attitude determination using telemetry data and the attitude maneuvers for imaging mission. The event prediction, mission scheduling, and command planning functions in MAPS subsequently generate the spacecraft mission operations and command plan. The fuel accounting and the realtime ground track display also support the spacecraft mission operations. We also present the orbital evolutions during the three years of the mission life of the KOMPSAT-Ⅰ.

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무궁화위성의 궤도재배치에 관한 연구 (A Study on the Station Relocation of the Koreasat)

  • 이상철;박봉규;김방엽
    • 한국항공우주학회지
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    • 제30권8호
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    • pp.87-93
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    • 2002
  • 일반적으로 궤도재배치는 주어진 시간동안 현재 경도에서 목표 경도로 옮기는 작업이며, 궤도재배치 기동은 표류제도 기동과 목표제도 기동으로 나누어진다. 정지궤도 위성은 지구비대칭에 의한 중력장 때문에 동서방향의 표류에 끊임없이 영향을 받는다. 따라서 기동을 계획할 때, 이러한 영향을 고려하지 않는다면 위성은 성공적으로 궤도재배치 되지 않을 수 있다. 본 연구에서는 기동시각과 delta-V를 구하기 위해서 선형화된 궤도전이 방정식을 사용하여 구하였으며, 궤도재배치를 수행할 경우 위성들간의 접근여부를 확인하기 위하여 비선형 시뮬레이션을 수행하였다.

정지궤도 위성의 탑재 궤도 생성 알고리듬 개발 (Development of Onboard Orbit Generation Algorithm for GEO Satellite)

  • 임조령;박봉규;박영웅;최홍택
    • 항공우주기술
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    • 제13권2호
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    • pp.7-17
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    • 2014
  • 본 기술논문은 정지궤도위성의 탑재 궤도 생성 알고리듬 개발에 대하여 다루고 있다. 정지궤도위성 실시간 궤도 생성에 사용되었던 기존 알고리듬의 정밀도를 향상시키기 위한 연구 결과를 제시하였다. 여기서 제시한 알고리듬을 토대로 궤도 오차 요인들의 영향성 분석을 수행하였다. 분석 결과, 초기 궤도 결정 오차가 50 m 이내이고, 지상시스템과 탑재 컴퓨터에서 사용되는 위성위치각 (sidereal oscillator) 오차가 ${\pm}0.0025deg$ 이내로 유지되어야만 궤도 요구조건을 만족함을 알 수 있었다. 본 알고리듬에 대한 탑재코드 개발이 이루어졌으며, 소프트웨어 기반 검증 시뮬레이터를 사용한 성능 검증이 수행되고 있다.

통신해양기상위성의 전이궤도 열해석 (TRANSFER ORBIT THERMAL ANALYSIS FOR COMS)

  • 전형열;김정훈;김성훈;양군호
    • 한국전산유체공학회지
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    • 제13권2호
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    • pp.48-54
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    • 2008
  • COMS (Communication, Ocean and Meteorological Satellite) is a geostationary satellite and has been developing by KARI for communication, ocean and meteorological observations. It will be launched by ARIANE 5. Ka-band components are installed on South panel, where single solar array wing is mounted. Radiators, embedded heat pipes, external heat pipe, insulation blankets and heaters are utilized for the thermal control of the satellite. The Ka-band payload section is divided several areas based on unit operating temperature in order to optimize radiator area and maximize heat rejection capability. Other equipment for sensors and bus are installed on North panel. The ocean and meteorological sensors are installed on optical benches on the top floor to decouple thermally from the satellite. During the transfer orbit operation, satellite will be under severe thermal environments due to low dissipation of components, satellite attitudes and LAE(Liquid Apogee Engine) firing. This paper presents temperature and heater power prediction and validation of thermal control design during transfer orbit operation.

Operational Report of the Mission Analysis and Planning System for the KOMPSAT-I

  • Lee, Byoung-Sun;Lee, Jeong-Sook;Kim, Jae-Hoon;Lee, Seong-Pal;Kim, Hae-Dong;Kim, Eun-Kyou;Choi, Hae-Jin
    • ETRI Journal
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    • 제25권5호
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    • pp.387-400
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    • 2003
  • Since its launching on 21 December 1999, the Korea Multi-Purpose Satellite-I (KOMPSAT-I) has been successfully operated by the Mission Control Element (MCE), which was developed by the ETRI. Most of the major functions of the MCE have been successfully demonstrated and verified during the three years of the mission life of the satellite. This paper presents the operational performances of the various functions in MAPS. We show the performance and analysis of orbit determinations using ground-based tracking data and GPS navigation solutions. We present four instances of the orbit maneuvers that guided the spacecraft form injection orbit into the nominal on-orbit. We include the ground-based attitude determination using telemetry data and the attitude maneuvers for imaging mission. The event prediction, mission scheduling, and command planning functions in MAPS subsequently generate the spacecraft mission operations and command plan. The fuel accounting and the realtime ground track display also support the spacecraft mission operations.

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