BASIC LIFETIME MODEL FOR REENTRY TIME PREDICTION OF ARTIFICIAL SPACE OBJECTS

Jurnal Sains Dirgantara Pub Date : 2018-09-03 DOI:10.30536/j.jsd.2018.v0.a2902

Abdul Rachman, R. Priyatikanto

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Abstract

The identification of space debris and the prediction of its orbital lifetime are two important things in the initial mitigation processes of threat from falling debris. As a part of the development of related decision support system, this study focuses on developing a basic lifetime model of artificial space object based on a well-known theory and prediction scheme in the field of satellite reentry research. Current implemented model has not accounted atmospheric oblateness or other correcting factors, but it has a reasonably good performance in predicting reentry time of several objects with various initial eccentricities. Among 30 predictions conducted to 10 objects that reentered the atmosphere from 1970 to 2012, there are 13 calculations that yield prediction time with accuracy of < 30% relative to the actual reentry time. In addition, 11 calculations yields prediction time which were more accurate compared to the outputs from SatEvo software that is currently used in the decision support system on the falling debris operated by Space Science Center LAPAN. These results were considered satisfying and can be developed further by adopting the updated atmospheric model and by calculating other relevant correcting factors.

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人造空间物体再入时间预测的基本寿命模型

空间碎片的识别和轨道寿命的预测是最初减轻碎片掉落威胁过程中的两件重要事情。作为相关决策支持系统开发的一部分，本文重点研究了基于卫星再入研究领域知名理论和预测方案的人造空间物体基本寿命模型。目前实现的模型没有考虑大气扁率或其他校正因子，但在预测具有不同初始偏心率的几种物体的再入时间方面具有相当好的性能。在1970年至2012年对10个再入大气层的物体进行的30次预测中，有13次计算得出的预测时间相对于实际再入时间的精度< 30%。此外，与目前由空间科学中心LAPAN操作的坠落碎片决策支持系统中使用的SatEvo软件的输出相比，11种计算产生的预测时间更为准确。这些结果是令人满意的，可以通过采用更新的大气模式和计算其他相关校正因子来进一步发展。

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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Jurnal Sains Dirgantara

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