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Stereophotoclinometry for OSIRIS-REx Spacecraft Navigation

Asteroid surfaces Astrodynamics Asteroid dynamics Astronomy 0103 physical sciences Orbits QB1-991 Near-Earth objects 01 natural sciences Asteroids
DOI: 10.3847/psj/ace31d Publication Date: 2023-09-15T12:04:30Z
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AUTHORS (21)
Coralie D. Adam
Leilah K. McCarthy
Jason M. Leonard
Robert Gaskell
Peter G. Antreasian
Andrew J. Liounis
Kenneth Getzandanner
Michael C. Moreau
Eric E. Palmer
John Weirich
Olivier S. Barnouin
Jeroen L. Geeraert
Eric M. Sahr
Benjamin Ashman
Derek S. Nelson
John Y. Pelgrift
Erik J. Lessac-Ch...
Daniel Wibben
Bobby G. Williams
Michael G. Daly
Dante S. Lauretta
ABSTRACT
Abstract We summarize a decade of effort by the Origins, Spectral Interpretation, Resource Identification, and Security–Regolith Explorer (OSIRIS-REx) mission team to build up the unique capabilities, processes, and procedures required to accomplish the unprecedented navigation performance required during proximity operations at asteroid (101955) Bennu. Stereophotoclinometry was a key technology used for digital terrain model (DTM) generation and landmark navigation, enabling estimation of spacecraft trajectories and Bennu’s geophysical parameters. We outline the concept of operations for OSIRIS-REx landmark navigation and the wide array of testing and verification efforts leading up to OSIRIS-REx’s arrival at Bennu. We relate the outcome of these efforts to the experiences during proximity operations. We discuss navigation and DTM performance during operations, including detailed lessons learned to carry forward for future missions.
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