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VLSID
2006
IEEE

Custom Reconfigurable Architecture for Autonomous Fault-Recovery of MEMS Vibratory Sensor Electronics

15 years 24 days ago
Custom Reconfigurable Architecture for Autonomous Fault-Recovery of MEMS Vibratory Sensor Electronics
This paper presents a novel custom-reconfigurable architecture, which is tailored to accomplish the electronic circuits associated with MEMS vibratory sensors. The paradigm of this research work focuses on the JPL/Boeing gyroscope. Since the type of the sensor is vibratory, its dynamics are sensitive to temperature variation. In addition to this, the electronics associated with it, must be tolerable to operational deviations due to radiation. Therefore, our scope is to embed the two compensation loops of the gyro within an efficient adaptive platform able to compensate for the high range of gyro's dynamics and radiation tolerance zone. In this paper we demonstrate the capability of our architecture to cope with permanent faults, which occur on the gyro electronics.
Evangelos F. Stefatos, Tughrul Arslan, Didier Keym
Added 01 Dec 2009
Updated 01 Dec 2009
Type Conference
Year 2006
Where VLSID
Authors Evangelos F. Stefatos, Tughrul Arslan, Didier Keymeulen, Ian Ferguson
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