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A Complementary filter for attitude Estimation of a fixed-Wing UAV

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Authors

Euston, Mark
Coote, Paul
Mahony, Robert
Kim, Jonghyuk
Hamel, Tarek

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Institute of Electrical and Electronics Engineers (IEEE Inc)

Abstract

This paper considers the question of using a nonlinear complementary filter for attitude estimation of fixed-wing unmanned aerial vehicle (UAV) given only measurements from a low-cost inertial measurement unit. A nonlinear complementary filter is proposed that combines accelerometer output for low frequency attitude estimation with integrated gyrometer output for high frequency estimation. The raw accelerometer output includes a component corresponding to airframe acceleration, occurring primarily when the aircraft turns, as well as the gravitational acceleration that is required for the filter. The airframe acceleration is estimated using a simple centripetal force model (based on additional airspeed measurements), augmented by a first order dynamic model for angle-of-attack, and used to obtain estimates of the gravitational direction independent of the airplane manoeuvres. Experimental results are provided on a real-world data set and the performance of the filter is evaluated against the output from a full GPS/INS that was available for the data set.

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Source

Proceedings of IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2008)

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Restricted until

2037-12-31