A new parameter is introduced, termed the density index, which enables the solar activity cycle to be captured in a new analytical atmospheric density model. Consequently, a new solar activity model is developed that uses a single independent variable per solar cycle to describe the solar activity across that cycle, as indicated by the F10.7 index. These models are combined and applied to a well-known general perturbation method for satellite orbit lifetime analysis, which is first modified using modern mathematical tools to remove simplifications in the derivation. Validation against historical data shows an improvement in orbit lifetime estimates from an average error of 50.44% with a standard deviation of 24.96% to an average error of 3.46% with a standard deviation of 3.25%. Furthermore, the new method with applied atmospheric and solar activity models is found to compare favorably against other general and special perturbation methods, including third-party and commercial software, the most accurate of which was found to have an average error of 6.63% and standard deviation of 7.00%. A case study, the UKube-1 spacecraft, is presented, and it is found that the spacecraft was inserted into an orbit 54 km lower than required to comply with best-practice guidelines and that, with 1ᅬ[fnof] confidence, its orbit will decay in June 2028±2 years, and June 2028±4 months if the next solar cycle is an average magnitude cycle. Presented as Paper 2015 at the 25th AAS/AIAA Space Flight Mechanics Meeting, Williamsburg, VA, 11-15 January 2015
Incorporating Solar Activity into General Perturbation Analysis of Atmospheric Friction
2017
Article (Journal)
English
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