在考虑附加相位限制的情况下,将地球同步卫星保持在给定的站立点

IF 1.9 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
V. Gorbulin, E. Kotyashov, V. Chernyavskiy, N. Gruzdev
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引用次数: 0

摘要

地球静止轨道(GSO)上的轨道设施,包括各种用途的静止人造地球卫星(SAES)的有效寿命可超过15年。与此同时,在轨道分组增量的现代条件下,空间碎片的数量也在增加,包括GSO上的空间碎片数量也在增加:SAES已完成其有效寿命,由于某些原因未转移到处置轨道,SAES与流星碰撞或事故产生碎片。这导致与主动SAESs碰撞的概率增加。所列出的因素决定了不仅需要考虑将SAESs保持在位置附近的问题,还需要考虑避免与空间碎片物体(SDO)碰撞的任务,同时不应增加工作流体的成本。新型航天飞机特别是使用寿命较长的航天飞机的投运过程中,动力装置的合理放置受到了人们的高度重视。在本文中,假设SESs配备了几个校正电机,这使得有可能在几个方向上创建控制加速度,而不改变SES本身的方向。换句话说,在本任务中假定AES轨道参数的修正不影响AES本身的方向。这种情况严重限制了SES控制系统的综合。在所考虑的方法中,工作液的成本被设定为控制功能,这是执行下一次校正所必需的,之后SAES将不会有危险的距离,也不会在投影水平区间内接近。这样就可以避免在SES离开站点点附近后做出控制决策,首先是在小于阈值距离的情况下接近SDO。本文给出了建模的结果,表明了所提出的解决方案的有效性。与现有方法相比,该方法的一个重要优点是不仅考虑了SAES相对于静止点的运动,而且考虑了位于其附近的几个其他物体的运动,包括受控和非受控物体。此外,可以有任意数量的对象。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Holding Geostationary Satellite at Given Standing Point, Taking into Account Additional Phase Restrictions
The active lifetime of orbital facilities in the geostationary orbit (GSO), which include stationary artificial earth satellites (SAES) for various purposes, can be more than 15 years. At the same time, in modern conditions of orbital grouping increment, the number of space debris, including those on the GSO, also increases: SAES, which have finished its active lifetime and were not transferred to disposal orbit for some reasons, shards of SAES appeared from collision with meteors or accidents. This leads to the increase of probability of collisions with active SAESs. The listed factors determine the need of considering not only the problem of keeping SAESs in vicinities of position, but also the task of avoiding collisions with space debris objects (SDO), while the costs of the working fluid should not increase. A great attention is being paid to rational power units placing during the projection of new space shuttles, especially those with long useful lifetime. In this article, it is assumed that SESs are equipped with several correction motors, which make it possible to create control accelerations in only several directions, without changing the orientation of the SES itself. In other words, in this task it is assumed that the corrections of the parameters of the AES orbit do not affect the orientation of the SAES itself. This condition is a severe limitation in the synthesis of the SES’s control system. In the considered methodological approach, the costs of the working fluid are set as a functionality from control, which are necessary to perform the next correction, after which the SAES will not have dangerous distances and approaching in projection horizon’s interval. This makes it possible to avoid situations when the decision on control is being made after the SES leaves the vicinity of the station point, and first of all, the approach to the SDO at a distance less than a liminal one. This article provides the results of modeling, which indicate the effectiveness of the proposed solutions. An important advantage compared with the existing methods is the consideration of the movement of the SAES relatively not only to the stationary point, but also to several other objects located in its vicinity, both controlled and uncontrolled. Moreover, there can be any given number of objects.
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来源期刊
Intelligenza Artificiale
Intelligenza Artificiale COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-
CiteScore
3.50
自引率
6.70%
发文量
13
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