基于地基光电站角度测量的空间目标轨道优化确定

Q3 Mathematics SPIIRAS Proceedings Pub Date : 2019-09-19 DOI:10.15622/sp.2019.18.5.1239-1263
V. Mironov, Y. Mironov, D. Khegay
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引用次数: 1

摘要

当代测量和计算技术的进步,以及轨道测量的一次和二次处理方法的改进,在很大程度上实现了实际航天问题的成功解决。因此,在空间探索和空间技术发展的长远规划中,十分重视改进现有的支持空间物体飞行导航的算法和技术手段,开发新的支持空间物体飞行导航的算法和技术手段,以扩大航天器自主导航系统以及空间监测地基和透视轨道系统的能力和效率。目前,基于角度测量的近地空间监测专用光电器件的现代化和开发工作正在积极进行。本文研究了用变分方法求解现代空间控制系统中利用陆基光电手段进行的角测量对轨道物体轨迹参数进行统计估计的问题。给出了实现变分极大似然法的轨道参数估计的模型和算法,以及与变分估计两点边值问题的迭代解相关的试验计算结果。数值计算的主要目的是研究所提出的估计算法的收敛性,以及测量误差对所获得的估计相对于其精确值的位移的影响。本文给出的仿真结果与METEOR PRIRODA航天器的轨道运动条件相对应,并利用北美防空司令部星表的星历数据在le -elements中得到。
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Optimal Determination of Space Objects Orbit by Angular Measurements of Ground-Based Optoelectronic Stations
The successful solution of practical cosmonautics problems is largely achieved by contemporary advances in measurement and computing technology, as well as by improvements in methods of primary and secondary processing of trajectory measurements. Therefore, in long-range programs of space exploration and space technology development, much attention is paid to improving existing and developing new algorithmic and technical means of navigation support for flights of space objects with the purpose to expand capabilities and increasing the efficiency of autonomous navigation systems of spacecraft, as well as ground-based and perspective orbital systems of space monitoring. Currently, active work is underway to modernize and develop promising complexes of specialized optoelectronic devices for monitoring near-Earth space based on angular measurements. The article considers the application of the variational approach for solving problems of statistical estimation of the trajectory parameters of the orbital object by angular measurements, which were carried out by ground-based optoelectronic means that are part of the modern space control system. Models and algorithms for determining estimates of orbital parameters that implement the variational version of the maximum likelihood method are presented, as well as the results of test calculations related to iterative solution of the two-point boundary value problem of variational estimation. The main purpose of the numerical calculations  is a study of convergence of the proposed estimation algorithm, as well as the impact of measurement errors on the displacement of the obtained estimates relative to their exact values. The simulation results, presented in the article, correspond to the conditions of the orbital motion of METEOR PRIRODA spacecraft and were obtained using the ephemeris data of the NORAD catalog in TLE-elements.
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来源期刊
SPIIRAS Proceedings
SPIIRAS Proceedings Mathematics-Applied Mathematics
CiteScore
1.90
自引率
0.00%
发文量
0
审稿时长
14 weeks
期刊介绍: The SPIIRAS Proceedings journal publishes scientific, scientific-educational, scientific-popular papers relating to computer science, automation, applied mathematics, interdisciplinary research, as well as information technology, the theoretical foundations of computer science (such as mathematical and related to other scientific disciplines), information security and information protection, decision making and artificial intelligence, mathematical modeling, informatization.
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