论文信息 - Evaluation of a spacecraft attitude and rate estimation algorithm

Evaluation of a spacecraft attitude and rate estimation algorithm

Purpose – This paper aims to present the development and performance evaluation of an attitude and rate estimation algorithm using an extended Kalman filter structure based on a body‐referenced representation of the state.Design/methodology/approach – The algorithm requires only geomagnetic field data and can be used as a low‐cost alternative or as a back‐up estimator in the case of attitude sensor failures. The satellite rate is estimated as a part of the filter state and thus no gyroscope is necessary. The assessment of the algorithm performance is realized through a Monte Carlo simulation using a low‐Earth orbit, nadir‐pointing satellite.Findings – Given some attitude and rate error requirements, the range of admissible initial errors on the filter state and the effect of un‐modelled disturbance torque are determined, along with the achievable attitude and rate accuracies.Practical implications – Because the simulation set‐up is clearly stated, the results of this evaluation can be used as a benchmark ...

Renuganth Varatharajoo | M. N. Filipski

[1] M. Shuster. A survey of attitude representation , 1993 .

[2] Arthur Gelb,et al. Applied Optimal Estimation , 1974 .

[3] G. A. Natanson,et al. A PC-based magnetometer-only attitude and rate determination system for gyroless spacecraft , 1995 .

[4] Itzhack Y. Bar-Itzhack,et al. A low cost approach to simultaneous orbit, attitude, and rate estimation using an extended Kalman filter , 1998 .

[5] E. J. Lefferts,et al. Kalman Filtering for Spacecraft Attitude Estimation , 1982 .

[6] Itzhack Y. Bar-Itzhack,et al. Satellite autonomous navigation based on magnetic field measurements , 1993 .

[7] James R. Wertz,et al. Spacecraft attitude determination and control , 1978 .

[8] Mark L. Psiaki,et al. Global Magnetometer-Based Spacecraft Attitude and Rate Estimation , 2003 .

[9] Thomas Bak,et al. Spacecraft Attitude Determination: A Magnetometer Approach , 1999 .

[10] Todd Humphreys. Attitude Determination for Small Satellites with Modest Pointing Constraints , 2002 .

[11] Mark L. Psiaki,et al. N 8 9 - 1 5 9 5 1 Three-Axis Attitude Determination via Kalman Filtering of Magnetometer Data , 2003 .

[12] Itzhack Y. Bar-Itzhack,et al. Evaluation of Attitude and Orbit Estimation Using Actual Earth Magnetic Field Data , 2001 .

[13] Sun Zhaowei,et al. Attitude and orbit determination for small satellite using magnetometer measurement , 2003 .