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다수의 인공위성-지상국 간 통신 스케줄 최적화 모형 KCI 등재

A Mathematical Model for Optimal Communication Scheduling between Multiple Satellites and Multiple Ground Stations

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한국산업경영시스템학회지 (Journal of Society of Korea Industrial and Systems Engineering)
한국산업경영시스템학회 (Society of Korea Industrial and Systems Engineering)
초록

In the satellite operation phase, a ground station should continuously monitor the status of the satellite and sends out a tasking order, and a satellite should transmit data acquired in the space to the Earth. Therefore, the communication between the satellites and the ground stations is essential. However, a satellite and a ground station located in a specific region on Earth can be connected for a limited time because the satellite is continuously orbiting the Earth, and the communication between satellites and ground stations is only possible on a one-to-one basis. That is, one satellite can not communicate with plural ground stations, and one ground station can communicate with plural satellites concurrently. For such reasons, the efficiency of the communication schedule directly affects the utilization of the satellites. Thus, in this research, considering aforementioned unique situations of spacial communication, the mixed integer programming (MIP) model for the optimal communication planning between multiple satellites and multiple ground stations (MS-MG) is proposed. Furthermore, some numerical experiments are performed to verify and validate the mathematical model. The practical example for them is constructed based on the information of existing satellites and ground stations. The communicable time slots between them were obtained by STK (System Tool Kit), which is a well known professional software for space flight simulation. In the MIP model for the MS-MG problems, the objective function is also considered the minimization of communication cost, and ILOG CPLEX software searches the optimal schedule. Furthermore, it is confirmed that this study can be applied to the location selection of the ground stations.

목차
1. 서 론
 2. 문제정의 및 수리모형
  2.1 문제정의
  2.2 혼합정수계획(MIP) 모형
 3. 수치실험 및 결과
  3.1 MS-MG 통신 스케줄링
  3.2 인공위성의 통신 시간대 조정 효과
 4. 결론 및 향후 연구방향
 References
저자
  • 정유진(공군 제3훈련비행단) | Eugine Jeong (3rd Flying Training Wing, Republic of Korea Air Force)
  • 김흥섭(공군사관학교 시스템공학과) | Heungseob Kim (Department of Systems Engineering, Republic of Korea Air Force Academy) Corresponding Author