DocumentCode
1486319
Title
Reducing Orbit Covariance for Continuous Thrust Spacecraft Transfers
Author
Zimmer, Scott ; Ocampo, Cesar ; Bishop, Robert
Author_Institution
Optensity, Inc., Centerville, VA, USA
Volume
46
Issue
2
fYear
2010
fDate
4/1/2010 12:00:00 AM
Firstpage
771
Lastpage
791
Abstract
The calculus of variations is used to develop the necessary theory and derive the optimality conditions for a spacecraft to transfer between a set of initial and final conditions, while minimizing a combination of fuel consumption and a function of the estimation error covariance matrix associated with the spacecraft state. The theory is developed in a general manner that allows for multiple observers, moving observers, covariance associated with an arbitrary frame, a wide variety of observation types, multiple gravity bodies, and uncertainties in the spacecraft equations of motion based on the thrusting status of the engine. A series of example trajectories from low Earth orbit (LEO) to a near geosynchronous Earth orbit (GEO) shows that either the trace of the covariance at the final time or the integral of the trace of the covariance matrix associated with the error in the Cartesian position and velocity can be reduced significantly with a small increase in the fuel consumption. An additional example illustrates the covariance associated with the semimajor axis can be significantly reduced for a transfer from Earth orbit to lunar orbit. This example illustrates multiple, moving observers as well as a transfer in a multi-body gravitational field.
Keywords
aerospace instrumentation; covariance matrices; observers; power consumption; space vehicles; cartesian position; cartesian velocity; continuous thrust spacecraft transfers; estimation error covariance matrix; fuel consumption; geosynchronous Earth orbit; low Earth orbit; moving observers; multibody gravitational field; multiple observers; orbit covariance; Calculus; Covariance matrix; Estimation error; Fuels; Gravity; Integral equations; Low earth orbit satellites; Observers; Space vehicles; Uncertainty;
fLanguage
English
Journal_Title
Aerospace and Electronic Systems, IEEE Transactions on
Publisher
ieee
ISSN
0018-9251
Type
jour
DOI
10.1109/TAES.2010.5461656
Filename
5461656
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