Title :
Comparison of SDINS in-flight alignment using equivalent error models
Author :
Yu, Myeong-Jong ; Lee, Jang Gyu ; Park, Heung-Won
Author_Institution :
Sch. of Electr. Eng., Seoul Nat. Univ., South Korea
fDate :
7/1/1999 12:00:00 AM
Abstract :
The psi-angle model and the equivalent tilt (ET) model have been widely used for in-flight alignment (IFA) to align and to calibrate a strapdown inertial navigation system (SDINS) on a moving base. However, these models are not effective for a system with large attitude errors because the neglected error terms in the models degrade the performance of a designed filter. In this paper, with an odometer as an external aid, a velocity-aided SDINS is designed for IFA. Equivalent error models applicable to IFA with large attitude errors are derived in terms of rotation vector error and additive and multiplicative quaternion errors. It is found that error models in terms of additive quaternion error (AQE) become linear. Thus the proposed error models reduce unmodeled error terms for a linear filter. From a number of van tests, it is shown that the proposed error models effectively improve the performance of IFA
Keywords :
Kalman filters; attitude control; error compensation; inertial navigation; modelling; position control; Kalman filter; additive quaternion errors; calibration; equivalent error models; equivalent tilt model; in-flight alignment; large attitude errors; linear filter; moving base; multiplicative quaternion errors; odometer aid; psi-angle model; rotation vector error; strapdown INS; unmodeled error terms; velocity-aided system; Automatic control; Automation; Degradation; Inertial navigation; Nonlinear filters; Quaternions; Storage area networks; Testing; Vectors; Vehicles;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
