International audienceIn this paper, we consider the problem of estimating the attitude of a rigid body who is subject to non-negligible external acceleration, based on the measurements provided by a classical IMU unit: gyroscope, accelerometer and magnometer. Two algorithms are proposed, based on the combination of a low-pass filter in the fixed inertial frame and an observer. The stability of the proposed schemes are proved, based on a Lyapunov approach. Simulations are provided in order to illustrate the performances of the proposed observers
International audienceWe consider the classical problem of estimating the attitude and gyro biases o...
Commercially viable aerial robotic vehicles require low-cost attitude stabilisation systems that are...
In this paper, a new Kalman filtering scheme is designed in order to give the optimal attitude estim...
This paper addresses the problem of estimating the attitude of a rigid body, which is subject to hig...
International audienceThis paper considers the problem of estimating the position, attitude and velo...
We consider the attitude and gyro-bias estimation as well as the attitude stabilization problem of a...
International audienceThis paper considers the problem of attitude estimation for rigid bodies using...
In this paper we study the attitude estimation problem for an accelerated rigid body using gyros and...
International audienceThis article addresses the problem of estimating the tilt and more generally t...
16International audienceThis paper considers the problem of obtaining good attitude estimates from m...
This paper deals with the attitude estimation of a rigid body equipped with angular velocity sensors...
International audienceThe problem of estimating the angular speed of a solid body from attitude meas...
International audienceA nonlinear observer (i.e. a “filter”) is proposed for estimating the attitude...
Inertia properties of rigid body such as ground, aerial, and space vehicles may be changed by severa...
Commercially viable aerial robotic vehicles require low-cost attitude stabilisation systems that are...
International audienceWe consider the classical problem of estimating the attitude and gyro biases o...
Commercially viable aerial robotic vehicles require low-cost attitude stabilisation systems that are...
In this paper, a new Kalman filtering scheme is designed in order to give the optimal attitude estim...
This paper addresses the problem of estimating the attitude of a rigid body, which is subject to hig...
International audienceThis paper considers the problem of estimating the position, attitude and velo...
We consider the attitude and gyro-bias estimation as well as the attitude stabilization problem of a...
International audienceThis paper considers the problem of attitude estimation for rigid bodies using...
In this paper we study the attitude estimation problem for an accelerated rigid body using gyros and...
International audienceThis article addresses the problem of estimating the tilt and more generally t...
16International audienceThis paper considers the problem of obtaining good attitude estimates from m...
This paper deals with the attitude estimation of a rigid body equipped with angular velocity sensors...
International audienceThe problem of estimating the angular speed of a solid body from attitude meas...
International audienceA nonlinear observer (i.e. a “filter”) is proposed for estimating the attitude...
Inertia properties of rigid body such as ground, aerial, and space vehicles may be changed by severa...
Commercially viable aerial robotic vehicles require low-cost attitude stabilisation systems that are...
International audienceWe consider the classical problem of estimating the attitude and gyro biases o...
Commercially viable aerial robotic vehicles require low-cost attitude stabilisation systems that are...
In this paper, a new Kalman filtering scheme is designed in order to give the optimal attitude estim...