Study the Space Debris Impact in the Early Stages of the Nano-Satellite Design

IF 0.7 Q4 ASTRONOMY & ASTROPHYSICS Artificial Satellites-Journal of Planetary Geodesy Pub Date : 2016-01-01 DOI:10.1515/arsa-2016-0014
M. Mahdi
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引用次数: 1

Abstract

Abstract The probability of KufaSat collisions with different sizes of orbital debris and with other satellites which operating in the same orbit during orbital lifetime was determined. Apogee/Perigee Altitude History was used to graph apogee and perigee altitudes over KufaSat lifetime. The required change in velocity for maneuvers necessary to reentry atmospheric within 25 years was calculated. The prediction of orbital lifetime of KufaSat using orbital parameters and engineering specifications as inputs to the Debris Assessment Software (DAS) was done, it has been verified that the orbital lifetime will not be more than 25 years after end of mission which is compatible with recommendation of Inter-Agency Space Debris Coordination Committee (IADC).
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纳米卫星设计初期空间碎片碰撞研究
摘要:确定了KufaSat在轨道寿命期间与不同大小的轨道碎片和在同一轨道运行的其他卫星碰撞的概率。使用远地点/近地点高度历史来绘制KufaSat寿命期间的远地点和近地点高度。计算了25年内重返大气层所需的机动速度变化。利用轨道参数和工程规范作为碎片评估软件(DAS)的输入,对KufaSat的轨道寿命进行了预测,验证了任务结束后轨道寿命不超过25年,符合机构间空间碎片协调委员会(IADC)的建议。
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