Inertial head-tracker sensor fusion by a complementary separate-bias Kalman filter

Author

Foxlin, Eric

Author_Institution

Res. Lab. of Electron., MIT, Cambridge, MA, USA

fYear

1996

fDate

30 Mar-3 Apr 1996

Firstpage

185

Abstract

Current virtual environment and teleoperator applications are hampered by the need for an accurate, quick-responding head-tracking system with a large working volume. Gyroscopic orientation sensors can overcome problems with jitter, latency, interference, line-of-sight obscurations and limited range, but suffer from slow drift. Gravimetric inclinometers can detect attitude without drifting, but are slow and sensitive to transverse accelerations. This paper describes the design of a Kalman filter to integrate the data from these two types of sensors in order to achieve the excellent dynamic response of an inertial system without drift, and without the acceleration sensitivity of inclinometers

Keywords

angular measurement; dynamic response; gravimeters; gyroscopes; inertial systems; interactive devices; sensitivity; sensor fusion; telecontrol; tracking; virtual reality; acceleration sensitivity; attitude detection; complementary separate-bias Kalman filter; drift; dynamic response; gravimetric inclinometers; gyroscopic orientation sensors; inertial head-tracker sensor fusion; interference; jitter; latency; limited range; line-of-sight obscurations; teleoperator applications; transverse accelerations; virtual environment; working volume; Acceleration; Accelerometers; Delay; Interference; Magnetic field measurement; Position measurement; Prototypes; Sensor fusion; Stability; Virtual environment;

fLanguage

English

Publisher

ieee

Conference_Titel

Virtual Reality Annual International Symposium, 1996., Proceedings of the IEEE 1996

Conference_Location

Santa Clara, CA

Print_ISBN

0-8186-7296-X

Type

conf

DOI

10.1109/VRAIS.1996.490527

Filename

490527