We propose new equivalent tilt error models which are applicable to the analysis of the terrestrial strapdown inertial navigation systems (SDINS), based on the quaternions. The currently available equivalent tilt error models, like the conventional /spl Phi/ model of the gimbaled inertial navigation systems (GINS), are derived only by the true frame approach. The true frame approach has a computational disadvantage that it produces an error model where the attitude error equation is coupled with its position and velocity error equations. The motivation of this work is to solve this problem. As a result, two kinds of error models are derived. Among them, one is derived by the computer frame approach for practical onboard implementations. Thus, like the conventional GINS /spl Psi/ model, its attitude error equation is decoupled from the position and velocity error equations. The other is derived in order to show the relationship between the true frame approach and the computer frame approach which are applied to the quaternion-based SDINS. Thus, like the GINS /spl delta//spl Theta/ model, it can be used to transform the error variables into each other which are calculated by the two different approaches.
Modeling quaternion errors in SDINS: computer frame approach
IEEE Transactions on Aerospace and Electronic Systems ; 34 , 1 ; 289-300
1998-01-01
1154157 byte
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Modeling Quaternion Errors in SDINS: Computer Frame Approach
Online Contents | 1998
|Errata: Modeling Quaternion Errors in SDINS: Computer Frame Approach
Online Contents | 1998
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