Author:
Ledbetter William Gordon,Sood Rohan,Keane James,Stuart Jeffrey
Abstract
AbstractA growing interest in small body exploration has motivated research into the rapid characterization of near-Earth objects to meet economic or scientific objectives. Specifically, knowledge of the internal density structure can aid with target selection and enables an understanding of prehistoric planetary formation to be developed. To this end, multi-layer extensions to the polyhedral gravity model are suggested, and an inversion technique is implemented to present their effectiveness. On-orbit gravity gradiometry is simulated and employed in stochastic and deterministic algorithms, with results that imply robustness in both cases.
Publisher
Springer Science and Business Media LLC
Subject
Space and Planetary Science,Astronomy and Astrophysics,Aerospace Engineering
Reference20 articles.
1. Liao-Mcpherson, D., Dunham, W. D., Kolmanovsky, I. Model predictive control strategies for constrained soft landing on an asteroid. In: Proceedings of the AIAA/AAS Astrodynamics Specialist Conference, 2016: 2016–5507.
2. Atchison, J., Mitch, R., Rivkin, A. Swarm flyby gravimetry. Technical report. The Johns Hopkins University Applied Physics Laboratory, 2015.
3. Scheeres, D. J., Khushalani, B., Werner, R. A. Estimating asteroid density distributions from shape and gravity information. Planetary and Space Science, 2000, 48(10): 965–971.
4. Takahashi, Y., Scheeres, D. J. Morphology driven density distribution estimation for small bodies. Icarus, 2014, 233: 179–193.
5. Ditmar, P., Klees, R., Kostenko, F. Fast and accurate computation of spherical harmonic coefficients from satellite gravity gradiometry data. Journal of Geodesy, 2003, 76(11–12): 690–705.
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