Autonomous orbit determination using observations of a sodium guide‐star network

Autor:	Shawn Hackett, Brien Flewelling, Mark L. Psiaki
Rok vydání:	2019
Předmět:	Physics 020301 aerospace & aeronautics 0209 industrial biotechnology Spacecraft business.industry Aerospace Engineering Sodium layer 02 engineering and technology 020901 industrial engineering & automation Line segment Optics 0203 mechanical engineering Position (vector) Physics::Space Physics Global Positioning System Astrophysics::Earth and Planetary Astrophysics Guide star Electrical and Electronic Engineering Orbit (control theory) Orbit determination business
Zdroj:	NAVIGATION. 66:385-400
ISSN:	2161-4296 0028-1522
DOI:	10.1002/navi.302
Popis:	A new method of spacecraft orbit determination is developed based on position information from the observation of fluorescing streaks in the atomic sodium of Earth's upper atmosphere. This concept could be used for GPS constellation autonomous navigation (AutoNav). This new orbit determination method uses a spacecraft-mounted camera to observe fluorescing line segments in the sodium layer. The fluorescence is excited by ground-based sodium guide-star lasers. The system also uses a star tracker in order to reference the measured guide-star directions to inertial coordinates. The measured direction to an unknown point on a known guide-star segment at a known time defines a plane on which the spacecraft must lie. Seven or more independent measurements suffice to determine a Keplerian orbit and the spacecraft clock offset. Cramer-Rao analysis indicates that 1 - ?? position accuracies on the order of 20 m or better may be achievable for filtering intervals of several days.
Databáze:	OpenAIRE
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