Observation of LEO Objects Using Optical Surveillance Facilities: The Geographic Aspect

IF 0.7 Q4 ASTRONOMY & ASTROPHYSICS Artificial Satellites-Journal of Planetary Geodesy Pub Date : 2019-12-01 DOI:10.2478/arsa-2019-0009

O. Kozhukhov, T. Dementiev, S.V. Rischenko, N. Koshkin, L. Shakun, S. Strakhova, O.M. Piskun, D. Kozhukhov, O.M. Iluchok, S. Moskalenko, S.M. Korniyevskiy

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引用次数: 3

Abstract

Abstract Simulation modelling of the observability of low Earth orbit (LEO) objects was performed using optical surveillance facilities depending on their geographic location and time of year. Orbital data for LEO objects from the open-access catalogue of the near-Earth space objects of the US Combined Space Operations Center (CSpOC) were taken as the initial data for the simulation. The simulation results revealed a complex relationship between the pattern of observability of a LEO object, its orbital parameters and location of the optical surveillance facility, in particular, for Sun-synchronous orbits (SSO) and observing facilities located near the equator. We also discuss variations in the frequency of passes of LEO objects into the field of view (FOV) and in the duration of their observation while passing through the FOV for optical surveillance facilities at three alternative locations. The obtained results and modelling techniques can be further used in the location planning of new optical observing facilities.

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利用光学监视设施对低轨道物体的观测:地理方面

摘要根据近地轨道物体的地理位置和一年中的时间，使用光学监视设施对其可观测性进行了模拟建模。来自美国联合空间作战中心近地空间物体开放获取目录的低地球轨道物体轨道数据被用作模拟的初始数据。模拟结果揭示了低地球轨道物体的可观察性模式、轨道参数和光学监视设施的位置之间的复杂关系，特别是对于太阳同步轨道（SSO）和位于赤道附近的观测设施。我们还讨论了低地球轨道物体进入视场（FOV）的频率变化，以及它们在通过三个备选位置的光学监视设施的视场时的观测持续时间变化。所获得的结果和建模技术可进一步用于新光学观测设施的位置规划。

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来源期刊

Artificial Satellites-Journal of Planetary Geodesy ASTRONOMY & ASTROPHYSICS-

CiteScore

1.00

自引率

11.10%

发文量