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大气密度模型用于近地卫星定轨预报的比较 被引量:10

Comparison of Atmospheric Density Models for LEO Satellite Orbit Determination and Orbit Forecast
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摘要 大气阻力是低轨卫星主要的摄动力,与高层大气密度的变化密切相关。由于目前对高层大气密度变化的机制尚未完全掌握,所使用的各种大气密度模型多属于半经验公式。在这些模型中并没有一种在任何情况下都是最好的,因此,对于特定轨道选择合适的大气密度模型对提高定轨预报的精度是非常重要的。通过对资源2号卫星实测GPS数据的分析计算,比较了常用的8种大气密度模型的定轨预报精度,探讨了预报24h应采用的定轨数据长度和大气密度模型。 Atmospheric drag is the main perturbation force on a low earth orbit satellite and is closely related to the variation of high atmospheric density. The mechanism for variation of high atmospheric density is not yet fully known and most atmospheric density models axe based on half empirical formulas and no one model is optimal under all circumstances. Therefore, it is very important to choose an appropriate atmospheric density model for a specific orbit to improve the accuracy of orbit forecast. Based on analysis and calculation of GPS measurements of ZY-2 satellite, the orbit determination and orbit forecast accuracies of eight commonly used atmospheric density models are compared. The paper also discusses the length of orbit determination data and atmospheric density model for 24-hour orbit forecast.
作者 秋宏兴 吴连大 张伟
机构地区 中国科学院南京紫金山天文台 西安卫星测控中心
出处 《飞行器测控学报》 2006年第4期12-18,共7页 Journal of Spacecraft TT&C Technology
关键词 大气密度模型 密度模型比较 定轨预报 Atmospheric Density Model Density Model Comparison Orbit Determination and Orbit Forecast
分类号 P135 [天文地球—天体力学]
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参考文献8

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飞行器测控学报
2006年 第4期

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