Using Differential Drag to Estimate Drag Coefficients for Improved Satellite Orbit Predictions
R.K. van der Zwaard (TU Delft - Space Systems Egineering)
S. Speretta (TU Delft - Space Systems Egineering)
Christian Siemes (TU Delft - Astrodynamics & Space Missions)
Eberhard K.A. Gill (TU Delft - Space Systems Egineering)
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Abstract
The drag coefficient C_D of a satellite is an important input for predicting satellite orbits in low Earth orbit, but determining C_D is difficult due to limited knowledge of Gas-Surface Interactions (GSI), leading to orbit prediction errors and increased collision risk. We propose an experiment that leverages the concept of differential drag to gain more insight into GSI, as differential drag causes a varying frontal area and C_D while other conditions stay the same, allowing us to estimate GSI parameters using orbit determination. Both analytical and numerical methods to obtain C_D and their sensitivity to GSI parameters are discussed, and these methods are then used to determine the optimal maneuvers for the experiment. As a case study, simulations are shown of a planned experiment using the BRIK-II satellite of the Royal Netherlands Air Force. It is expected that this method can be used to obtain more knowledge on GSI modelling, as well as give satellite operators a method to estimate C_D of a satellite with less bias than conventional methods.