Inertial Velocity-Aided Attitude (VAA) is an important problem in the control of Remotely Piloted Aerial Systems (RPAS), and involves estimating the velocity and attitude of a vehicle using gyroscope, accelerometer, and inertial-frame velocity (e.g. GPS velocity) measurements. Existing solutions tend to be complex and provide limited stability guarantees, relying on either high gain designs or assuming constant acceleration of the vehicle. This paper proposes a novel observer for inertial VAA that exploits Lie group symmetries of the system dynamics, and shows that the observer is synchronous with the system trajectories. This is achieved by adding a virtual state of only three dimensions, in contrast to the larger virtual states typically ...
International audienceThe purpose of this tutorial is to report results developed over the last thre...
16International audienceThis paper considers the problem of obtaining good attitude estimates from m...
In this thesis, we present a model-based observer for inertial navigation of quadrotors and other mu...
International audienceFlight performance of aerial robotic vehicles is critically dependent on the q...
International audienceMotivated by drone autonomous navigation applications we address a novel probl...
International audienceMotivated by drone autonomous navigation applications we address a novel probl...
This paper considers the problem of nonlinear attitude estimation for a rigid body system using inte...
We propose an observer for rotational dynamics subject to directional and gyroscopic measurements, w...
© 2014 IEEE. A key requirement for effective control of quadrotor vehicles is estimation of both att...
International audience— A key requirement for effective control of quadro-tor vehicles is estimation...
This paper proposes a novel observer-based controller for Vertical Take-Off and Landing (VTOL) Unman...
International audienceConstructions of strict Lyapunov-like functions are used to solve the rigid-bo...
There is a great demand for vision-based robotics solutions that can operate using Global Positionin...
This chapter is the study of state estimators for robust navigation. Navigation of vehicles is a vas...
The rigid body attitude estimation problem is treated using the discrete-time Lagrange-d'Alembert pr...
International audienceThe purpose of this tutorial is to report results developed over the last thre...
16International audienceThis paper considers the problem of obtaining good attitude estimates from m...
In this thesis, we present a model-based observer for inertial navigation of quadrotors and other mu...
International audienceFlight performance of aerial robotic vehicles is critically dependent on the q...
International audienceMotivated by drone autonomous navigation applications we address a novel probl...
International audienceMotivated by drone autonomous navigation applications we address a novel probl...
This paper considers the problem of nonlinear attitude estimation for a rigid body system using inte...
We propose an observer for rotational dynamics subject to directional and gyroscopic measurements, w...
© 2014 IEEE. A key requirement for effective control of quadrotor vehicles is estimation of both att...
International audience— A key requirement for effective control of quadro-tor vehicles is estimation...
This paper proposes a novel observer-based controller for Vertical Take-Off and Landing (VTOL) Unman...
International audienceConstructions of strict Lyapunov-like functions are used to solve the rigid-bo...
There is a great demand for vision-based robotics solutions that can operate using Global Positionin...
This chapter is the study of state estimators for robust navigation. Navigation of vehicles is a vas...
The rigid body attitude estimation problem is treated using the discrete-time Lagrange-d'Alembert pr...
International audienceThe purpose of this tutorial is to report results developed over the last thre...
16International audienceThis paper considers the problem of obtaining good attitude estimates from m...
In this thesis, we present a model-based observer for inertial navigation of quadrotors and other mu...