Open AccessMEMS inertial sensors with integral rotation means.
Author(s) -
Stewart M Kohler
Publication year - 2003
Language(s) - English
Resource type - Reports
DOI - 10.2172/917477
Subject(s) - gyroscope , accelerometer , inertial frame of reference , inertial measurement unit , rotation (mathematics) , microelectromechanical systems , inertial navigation system , inertial reference unit , computer science , electronic engineering , engineering , physics , materials science , aerospace engineering , nanotechnology , artificial intelligence , quantum mechanics , operating system
The state-of-the-art of inertial micro-sensors (gyroscopes and accelerometers) has advanced to the point where they are displacing the more traditional sensors in many size, power, and/or cost-sensitive applications. A factor limiting the range of application of inertial micro-sensors has been their relatively poor bias stability. The incorporation of an integral sensitive axis rotation capability would enable bias mitigation through proven techniques such as indexing, and foster the use of inertial micro-sensors in more accuracy-sensitive applications. Fabricating the integral rotation mechanism in MEMS technology would minimize the penalties associated with incorporation of this capability, and preserve the inherent advantages of inertial micro-sensors
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