This report presents a new adaptive operation strategy for MEMS z-axis gyroscopes. Specifically, a unified methodology is proposed for designing and analyzing the performance of a control algorithm that can identify and, in an adaptive fashion, compensate for most fabrication defects and perturbations affecting the behavior of a MEMS z-axis gyroscope. Dynamic analysis of typical MEMS gyroscopes shows that fabrication imperfections are a major factor limiting the performance of the gyroscope. However, the motion of a conventional mode-matched z-axis gyroscope does not have sufficient persistence of excitation and, as a result, all major fabrication imperfections cannot be identified and compensated for in an on-line fashion. The proposed ada...
An adaptive sliding mode control using robust feedback compensator is presented for a MEMS gyroscope...
This paper presents a novel methodology for approximation of the unknown time-varying rotation rate ...
The current paper presents a new control strategy known as active disturbance rejection control (ADR...
This paper presents a new adaptive operation strategy that can identify and, in an adaptive fashion,...
This report presents adaptive control algorithms for conventional modes of operation of MEMS z-axis ...
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 paper presents a new adaptive control system to control both axes of a vibrational MEMS gyrosco...
This work presents an adaptive force-balancing control (AFBC) scheme with actuator limits for a MEMS...
In this paper, a nonlinear estimation strategy for sensing the time-varying angular rate of a Z-axis...
In this report, we present a hybrid discrete/ continuous time version of the observer-based adaptive...
There are two major control problems associated with vibrational MEMS gyroscopes: to control two vib...
In this paper we summarize principles of operation of micromachined gyroscopes, analyze dynamics of ...
An adaptive sliding mode control using robust feedback compensator is presented for a MEMS gyroscope...
This paper presents a novel methodology for approximation of the unknown time-varying rotation rate ...
The current paper presents a new control strategy known as active disturbance rejection control (ADR...
This paper presents a new adaptive operation strategy that can identify and, in an adaptive fashion,...
This report presents adaptive control algorithms for conventional modes of operation of MEMS z-axis ...
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 paper presents a new adaptive control system to control both axes of a vibrational MEMS gyrosco...
This work presents an adaptive force-balancing control (AFBC) scheme with actuator limits for a MEMS...
In this paper, a nonlinear estimation strategy for sensing the time-varying angular rate of a Z-axis...
In this report, we present a hybrid discrete/ continuous time version of the observer-based adaptive...
There are two major control problems associated with vibrational MEMS gyroscopes: to control two vib...
In this paper we summarize principles of operation of micromachined gyroscopes, analyze dynamics of ...
An adaptive sliding mode control using robust feedback compensator is presented for a MEMS gyroscope...
This paper presents a novel methodology for approximation of the unknown time-varying rotation rate ...
The current paper presents a new control strategy known as active disturbance rejection control (ADR...