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Use of nonlinear identification in robust attitude and attitude rate estimation for SAMPEXA method is described for obtaining optimal attitude estimation/identification algorithms for spacecraft lacking attitude rate measurement devices (rate gyros), and then demonstrated using actual flight data from the Solar, Anomalous, and Magnetospheric Particle Explorer (SAMPEX) spacecraft. SAMPEX does not have on-board rate sensing, and relies on sun sensors and a three-axis magnetometer for attitude determination. The absence of rate data normally reduces both the total amount of data available and the sampling density (in time) by a substantial fraction. In addition, attitude data is occasionally unavailable (for example, during sun occultation). As a result, the sensitivity of the estimates to model uncertainty and to measurement noise increases. In order to maintain accuracy in the attitude estimates, there is an increased need for accurate models of the rotational dynamics. The Minimum Model Error(MME)/Least Square Correlation(LSC) algorithm accurately identifies an improved model for SAMPEX to be used during periods of complete data loss or extreme noise. The model correction is determined by estimating only one orbit(the identification pass) just prior to the assumed data loss(the prediction pass). The MME estimator correctly predicted the states during the identification phase, but more importantly determines the necessary model correction trajectory, d(t). The LSC algorithm is then used to find this trajectory's functional form, H(x(t)). The results show significant improvement of the new corrected model's attitude estimates as compared to the original uncorrected model's estimates. The possible functional form of the correction term is limited at this point in the study to functions strictly of the estimated states. The results, however, strongly suggest that functions based on the relative position of the satellite may also be possible candidates for future consideration.
Document ID
19950021360
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Mook, D. Joseph
(State Univ. of New York Buffalo, NY, United States)
Depena, Juan
(State Univ. of New York Buffalo, NY, United States)
Trost, Kelly
(State Univ. of New York Buffalo, NY, United States)
Wen, Jung
(State Univ. of New York Buffalo, NY, United States)
Mcpartland, Michael
(State Univ. of New York Buffalo, NY, United States)
Date Acquired
September 6, 2013
Publication Date
May 1, 1995
Publication Information
Publication: NASA. Goddard Space Flight Center, Flight Mechanics(Estimation Theory Symposium 1995
Subject Category
Astrodynamics
Accession Number
95N27781
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.

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