• 대한원격탐사학회:학술대회논문집
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• 대한원격탐사학회 2006년도 Proceedings of ISRS 2006 PORSEC Volume I
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• pp.278-281
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• 2006

Korea Meteorological Administration(KMA) has issued the tropical storm(typhoon) warning or advisories when it was developed to tropical storm from tropical depression and a typhoon is expected to influence the Korean peninsula and adjacent seas. Typhoon information includes current typhoon position and intensity. KMA has used the Dvorak Technique to analyze the center of typhoon and it's intensity by using available geostationary satellites' images such as GMS, GOES-9 and MTSAT-1R since 2001. The Dvorak technique is so subjective that the analysis results could be variable according to analysts. To reduce the subjective errors, QuikSCAT seawind data have been used with various analysis data including sea surface temperature from geostationary meteorological satellites, polar orbit satellites, and other observation data. On the other hand, there is an advantage of using the Subjective Dvorak Technique(SDT). SDT can get information about intensity and center of typhoon by using only infrared images of geostationary meteorology satellites. However, there has been a limitation to use the SDT on operational purpose because of lack of observation and information from polar orbit satellites such as SSM/I. Therefore, KMA has established Advanced Objective Dvorak Technique(AODT) system developed by UW/CIMSS(University of Wisconsin-Madison/Cooperative Institude for Meteorological Satellite Studies) to improve current typhoon analysis technique, and the performance has been tested since 2005. We have developed statistical relationships to correct AODT CI numbers according to the SDT CI numbers that have been presumed as truths of typhoons occurred in northwestern pacific ocean by using linear, nonlinear regressions, and neural network principal component analysis. In conclusion, the neural network nonlinear principal component analysis has fitted best to the SDT, and shown Root Mean Square Error(RMSE) 0.42 and coefficient of determination($R^2$) 0.91 by using MTSAT-1R satellite images of 2005. KMA has operated typhoon intensity analysis using SDT and AODT since 2006 and keep trying to correct CI numbers.

• 산업경영시스템학회지
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• 제41권1호
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• pp.39-49
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• 2018

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.

• 한국항공우주학회지
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• 제49권6호
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• pp.489-496
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• 2021

지구 관측위성의 데이터를 지상으로 전송하기 위해 활용되는 X-대역 주파수는 한정적이므로, 여러 위성들이 해당 동일 대역을 공유하는 방식으로 활용한다. 복수의 위성이 유사 주파수 대역을 활용하기 위해서 국제전기통신연합-전파통신부문(International Telecommunication Union - Radiocommunication; ITU-R)에서는 송신 대역 내 전력속밀도(Power Flux Density; PFD) 제한 조건이 있고, 이를 통해 위성 간 간섭 영향성을 극복하고 있다. 하지만 이러한 규정 하에서도 복수의 위성이 비교적 근접한 지상국에 접속하는 경우 간섭 영향성의 분석이 수행될 필요가 있다. 본 논문에서는 한반도 내에 임의 배치된 두 개의 지상국을 기준으로, 서로 다른 궤도를 따르는 두 개의 저궤도 위성에 각각 접속하여 통신할 경우에 대해 수신 신호대 간섭+잡음비(Signal to Interference plus Noise Ration; SINR) 기준으로 간섭 영향성 분석을 수행하였다. 간섭 영향성 분석을 통해 PFD 규격을 만족시키는 두 위성이라 하더라도 전체 임무 기간(365일 가정) 내에 간섭은 발생할 수 있으나 영향받는 기간이 짧고 미리 예측할 수 있음을 확인할 수 있었다.

• Journal of Positioning, Navigation, and Timing
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• 제2권2호
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• pp.131-137
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• 2013

In this study, positioning results that combined the code observation information of GPS and GLONASS navigation satellites were analyzed. Especially, the distribution of GLONASS satellites observed in Korea and the combined GPS/GLONASS positioning results were presented. The GNSS data received at two reference stations (GRAS in Europe and KOHG in Goheung, Korea) during a day were processed, and the mean value and root mean square (RMS) value of the position error were calculated. The analysis results indicated that the combined GPS/GLONASS positioning did not show significantly improved performance compared to the GPS-only positioning. This could be due to the inter-system hardware bias for GPS/GLONASS receivers, the selection of transformation parameters between reference coordinate systems, the selection of a confidence level for error analysis, or the number of visible satellites at a specific time.

• 항공우주기술
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• 제2권2호
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• pp.89-95
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• 2003

본 논문에서는 통신위성과 비교하여 정지궤도 기상위성의 기술적 특성을 분석하고 통신 방송, 기상 및 해양관측 등 복합 임무를 수행하는 위성에서 고려하여야 할 특성을 살펴보았다. 정지궤도 기상위성은 관측자료의 국제공유를 기본으로 하고 있어 관측 및 서비스 영역이 넓으며 1km~4km 공간해상도로 관측하기 위해서는 통신위성에 비해 매우 높은 지향 정밀도가 요구된다. 또한 적외선 센서의 성능을 유지하기 위하여 극저온 열제어가 필요하며 기상 탑재체 광학부의 오염방지를 위한 설계 및 관리도 고려되어야 한다. 한편 2008년 발사를 목표로 개발될 통신해양기상위성은 복합임무를 성공적으로 수행하기 위하여 자세제어계, 전력계, 열제어계 및 전개장치 등에서 고려하여야 할 사항들을 분석하였다.

• 항공우주시스템공학회지
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• 제4권4호
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• pp.37-43
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• 2010

Need for agile satellites increases for performing various mission due to increase of satellite image applications and users. This paper performs attitude maneuver analysis by using Satellite Tool Kit(STK) made by AGI. In order to automate the STK analysis process, a MATLAB program is developed to generate STK input data and to process STK output data. Five attitude maneuver modes are analyzed and attitude angle variation and required torques are calculated.

• Journal of Positioning, Navigation, and Timing
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• 제6권2호
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• pp.71-78
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• 2017

The sidereal day of a Global Positioning System (GPS) satellite was intended to equal one half of a sidereal day of the Earth. However, the sidereal day of GPS satellites has become unequal to one half of a sidereal day of the Earth. This is fundamentally caused by the non-sphericity of the Earth and the gravity of the Moon. The difference between sidereal days of GPS satellites and the Earth is known as a sidereal shift. The details surrounding sidereal shifts and their origins have yet to be fully understood. We calculated the periodicity of sidereal shifts for GPS satellites using broadcast ephemeris data. To conduct a periodic analysis of the sidereal shift, we employ the Lomb-Scargle periodogram method. It shows that the orbit periods of GPS satellites have small-amplitude perturbations with a 13.6-day period. In addition, we compare the GPS satellite orbit periods with the periodicity of geomagnetic indices and the solar wind parameters to identify the cause of the perturbations. Our results suggest that the solar wind stream might also affect the 13.6-day period of the sidereal shifts.

• Advances in aircraft and spacecraft science
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• 제9권4호
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• pp.279-300
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• 2022

This paper analyzes the possibilities of a new method to using TLE data for detecting satellite maneuvers. The method has a number of advantages over other methods that are designed to detect maneuvers. It allows not only to detect maneuvers, but also to get a more complete picture of the maneuver. In particular, the method makes it possible to estimate the moments of the beginning and end of the maneuver, calculate the changes in the orbital elements, evaluate the tangential and binormal components of the impulse, and finally, calculate the impulse of the satellite obtained as a result of the maneuver. To demonstrate in detail the capabilities of the algorithm, the proposed method was applied to one of LEO satellites - TIANHUI-1 satellite. After the efficiency of the method was proved, this method was applied to the China Space Station - TIANHE-1 (CSS), Starlink-1095 and Starlink-2305 satellites. The maneuvers of the CSS and Starlink-1095 satellite during their close encounter on 1 July, 2021, and the CSS and Starlink-2305 satellite during their close encounter on 21 October, 2021 are analyzed in detail. The minimum distances between the CSS and Starlink satellites at the moments of their maximum approaches are estimated. An estimate of the computation time of this algorithm is given, and the possibility of its use for monitoring maneuvers or other anomalous orbital changes of a large number of satellites in near real-time is shown. It is assumed that on the basis of this method, a service for monitoring satellite maneuvers can be created.

• Journal of Communications and Networks
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• 제8권4호
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• pp.451-460
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• 2006

Since low earth orbit (LEO) satellite constellations have important advantages over geosynchronous earth orbit (GEO) systems such as low propagation delay, low power requirements, and more efficient spectrum allocation due to frequency reuse between satellites and spotbeams, they are considered to be used to complement the existing terrestrial fixed and wireless networks in the evolving global mobile network. However, one of the major problems with LEO satellites is their higher speed relative to the terrestrial mobile terminals, which move at lower speeds but at more random directions. Therefore, handover management in LEO satellite networks becomes a very challenging task for supporting global mobile communication. Efficient and accurate methods are needed for LEO satellite handovers between the moving footprints. In this paper, we propose a new seamless handover management scheme for LEO satellites (SeaHO-LEO), which utilizes the handover management schemes aiming at decreasing latency, data loss, and handover blocking probability. We also present another interesting handover management model called satellite mobility pattern based handover management in LEO satellites (PatHO-LEO) which takes mobility pattern of both satellites and mobile terminals into account to minimize the handover messaging traffic. This is achieved by the newly introduced billboard manager which is used for location updates of mobile users and satellites. The billboard manager makes the proposed handover model much more flexible and easier than the current solutions, since it is a central server and supports the management of the whole system. To show the performance of the proposed algorithms, we run an extensive set of simulations both for the proposed algorithms and well known handover management methods as a baseline model. The simulation results show that the proposed algorithms are very promising for seamless handover in LEO satellites.

• 한국항공우주학회지
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• 제49권5호
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• pp.417-424
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• 2021

정지궤도위성의 원격데이터 통신 포맷은 제한된 통신 속도 대비 대량으로 생성되는 위성 데이터를 효율적으로 수신하고, 36,000km 고도에서 운영되는 정지궤도위성의 원격명령어 수신 결과를 정확하게 확인하기 위해 설계된다. 한국항공우주연구원에서 개발하여 2018년과 2020년에 각각 발사 및 운영 중인 천리안2A호와 2B호는 한국 최초의 정지궤도위성인 천리안1호의 임무를 연속하여 수행하도록 설계되었다. 따라서 정지궤도위성과 지상국의 안정적이고 효율적인 원격 통신을 위해 필요한 원격 통신 설계 요소들을 승계하였다. 한편, 원격 데이터의 처리 및 운영을 담당하는 천리안 2A호와 2B호의 탑재소프트웨어는 다목적위성시리즈를 통해 그 성능이 더욱 개선되어 왔으며 최신의 원격 데이터 처리 및 운영 알고리즘이 구축되어 있다. 본 논문에서는 정지궤도위성의 향상된 원격 데이터 송수신을 위한 원격명령어 및 원격측정데이터의 포맷 및 운영 개념 설계를 제안하고, 실제 천리안 2A호와 2B호의 탑재소프트웨어에 적용된 내용들을 상세하게 기술한다.