Cloud Computing Analysis of Indian ASAT Test on March 27, 2019

2019 IEEE International Scientific-Practical Conference Problems of Infocommunications, Science and Technology (PIC S&T) Pub Date : 2019-10-01 DOI:10.1109/PICST47496.2019.9061243

V. Akhmetov, S. Khlamov, V. Savanevych, E. Dikov

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引用次数: 18

Abstract

In this paper we presented the results of cloud computing and analysis of orbital parameters of the satellite fragments that formed by first India anti-satellite (ASAT) missile against a "live" Microsat-R satellite launched by them on January 24, 2019. Based on the cloud computing we calculated the orbital parameters and distribution of impulse values obtained by Microsat-R fragments that were formed after the impact of ASAT missile and tracked by NASA. All results in this paper and detailed analysis of this event are based on the orbital data taken in form of NORAD two-line element (TLE) dataset from space-track.org and by own calculation of the CoLiTec group in EOS Data Analytics using own cloud server. The test parameters were chosen with extreme caution to minimize the hazard of debris after the impact. However, the results of our research showed the significant differences from expected "head-on collision" of rocket with Microsat-R satellite.

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2019年3月27日印度反卫星试验的云计算分析

本文介绍了2019年1月24日印度首枚反卫星(ASAT)导弹对其发射的“活”Microsat-R卫星形成的卫星碎片的云计算结果和轨道参数分析。基于云计算，计算了NASA跟踪的反卫星导弹撞击后形成的Microsat-R碎片的轨道参数和冲量分布。本文的所有结果和对该事件的详细分析都是基于来自space-track.org的NORAD双线元(TLE)数据集形式的轨道数据，以及EOS data Analytics中的CoLiTec小组使用自己的云服务器进行的自己的计算。测试参数的选择非常谨慎，以尽量减少撞击后碎片的危害。然而，我们的研究结果显示，与预期的“正面碰撞”火箭与Microsat-R卫星有显著差异。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 IEEE International Scientific-Practical Conference Problems of Infocommunications, Science and Technology (PIC S&T)

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