This report presents adaptive control algorithms for conventional modes of operation of MEMS z-axis gyroscopes. In an open-loop mode, an off-line self-calibration scheme is proposed for estimating fabrication imperfections and enhancing the performance of a gyroscope operating in open-loop mode. This scheme can be implemented during the initial calibration stage when the gyroscope is turned on, or at regular calibration sessions, which may be performed periodically. An adaptive add-on control scheme is also proposed for a closed-loop mode of operation. This scheme is realized by adding an outer loop to a conventional force-balancing scheme that includes a parameter estimation algorithm. This parameter adaptation algorithm estimates the angu...
In this paper, a nonlinear estimation strategy for sensing the time-varying angular rate of a Z-axis...
An adaptive sliding mode control using robust feedback compensator is presented for a MEMS gyroscope...
This paper describes the design of a digital closed drive loop for a MEMS vibratory, vacuum packaged...
This report presents a new adaptive operation strategy for MEMS z-axis gyroscopes. Specifically, a u...
This paper presents a new adaptive operation strategy that can identify and, in an adaptive fashion,...
This paper presents a new adaptive control algorithm to control the sense axis of a Z-axis MEMS gyro...
The motion of a conventional force-balancing-controlled gyroscope in a mode-matched operation does n...
In this work we investigate the possibility of applying the adaptive control algorithm to Micro-Elec...
range of the gyroscope beyond the open-loop mode of operation, cation steps include bulk micromachin...
This work presents an adaptive force-balancing control (AFBC) scheme with actuator limits for a MEMS...
In this report, we present a hybrid discrete/ continuous time version of the observer-based adaptive...
This paper presents a new adaptive control system to control both axes of a vibrational MEMS gyrosco...
This dissertation investigates the design of control algorithms and calibration methods forMicroscal...
This thesis work presents a suite of adaptive force-balancing control schemes with magnitude constra...
In this paper we summarize principles of operation of micromachined gyroscopes, analyze dynamics of ...
In this paper, a nonlinear estimation strategy for sensing the time-varying angular rate of a Z-axis...
An adaptive sliding mode control using robust feedback compensator is presented for a MEMS gyroscope...
This paper describes the design of a digital closed drive loop for a MEMS vibratory, vacuum packaged...
This report presents a new adaptive operation strategy for MEMS z-axis gyroscopes. Specifically, a u...
This paper presents a new adaptive operation strategy that can identify and, in an adaptive fashion,...
This paper presents a new adaptive control algorithm to control the sense axis of a Z-axis MEMS gyro...
The motion of a conventional force-balancing-controlled gyroscope in a mode-matched operation does n...
In this work we investigate the possibility of applying the adaptive control algorithm to Micro-Elec...
range of the gyroscope beyond the open-loop mode of operation, cation steps include bulk micromachin...
This work presents an adaptive force-balancing control (AFBC) scheme with actuator limits for a MEMS...
In this report, we present a hybrid discrete/ continuous time version of the observer-based adaptive...
This paper presents a new adaptive control system to control both axes of a vibrational MEMS gyrosco...
This dissertation investigates the design of control algorithms and calibration methods forMicroscal...
This thesis work presents a suite of adaptive force-balancing control schemes with magnitude constra...
In this paper we summarize principles of operation of micromachined gyroscopes, analyze dynamics of ...
In this paper, a nonlinear estimation strategy for sensing the time-varying angular rate of a Z-axis...
An adaptive sliding mode control using robust feedback compensator is presented for a MEMS gyroscope...
This paper describes the design of a digital closed drive loop for a MEMS vibratory, vacuum packaged...