A nonlinear control scheme for attitude control of a spacecraft is combined with a nonlinear gyro bias observer for the case of constant gyro bias, in the presence of gyro noise. The observer bias estimates converge exponentially to a mean square bound determined by the standard deviation of the gyro noise. The resulting coupled, closed loop dynamics are proven to be globally stable, with asymptotic tracking which is also mean square bounded. A simulation of the proposed observer-controller design is given for a rigid spacecraft tracking a specified, time-varying attitude sequence to illustrate the theoretical claims
This paper studies a nonlinear discrete-time partial state observer design problem for rigid spacecr...
This paper studies a nonlinear discrete-time partial state observer design problem for rigid spacecr...
International audienceWe consider the classical problem of estimating the attitude and gyro biases o...
Gyroscopes, or gyros, are vital sensors in spacecraft onboard attitude control systems. Gyro measur...
Any low-cost IMU is subject to biased measurement in its gyroscopes. This paper presents a nonlinear...
International audienceThis paper considers the problem of attitude estimation for rigid bodies using...
The rigid-body attitude tracking using vector and biased gyro measurements with unknown inertia matr...
International audienceWe consider the classical problem of estimating the attitude and gyro biases o...
Attitude estimation algorithms are critical components of satellite control systems, aircraft autopi...
The attitude control problem, or the control of a spacecraft's orientation with respect to a frame o...
We derive a continuous, nonlinear control law for spacecraft attitude tracking of arbitrary continuo...
The paper deals with the problem of robust nonlinear attitude stabilization of a rigid spacecraft. I...
In this paper, we present a case study on spacecraft attitude control. The plant (spacecraft attitud...
Attitude control law design for spacecraft large angle maneuvers is investigated in this paper. The ...
International audienceThis note presents a new adaptive attitude tracking controller for rigid body ...
This paper studies a nonlinear discrete-time partial state observer design problem for rigid spacecr...
This paper studies a nonlinear discrete-time partial state observer design problem for rigid spacecr...
International audienceWe consider the classical problem of estimating the attitude and gyro biases o...
Gyroscopes, or gyros, are vital sensors in spacecraft onboard attitude control systems. Gyro measur...
Any low-cost IMU is subject to biased measurement in its gyroscopes. This paper presents a nonlinear...
International audienceThis paper considers the problem of attitude estimation for rigid bodies using...
The rigid-body attitude tracking using vector and biased gyro measurements with unknown inertia matr...
International audienceWe consider the classical problem of estimating the attitude and gyro biases o...
Attitude estimation algorithms are critical components of satellite control systems, aircraft autopi...
The attitude control problem, or the control of a spacecraft's orientation with respect to a frame o...
We derive a continuous, nonlinear control law for spacecraft attitude tracking of arbitrary continuo...
The paper deals with the problem of robust nonlinear attitude stabilization of a rigid spacecraft. I...
In this paper, we present a case study on spacecraft attitude control. The plant (spacecraft attitud...
Attitude control law design for spacecraft large angle maneuvers is investigated in this paper. The ...
International audienceThis note presents a new adaptive attitude tracking controller for rigid body ...
This paper studies a nonlinear discrete-time partial state observer design problem for rigid spacecr...
This paper studies a nonlinear discrete-time partial state observer design problem for rigid spacecr...
International audienceWe consider the classical problem of estimating the attitude and gyro biases o...