This work presents a method for estimating the egomotion of an aerial vehicle in challenging industrial environments. It combines binocular visual and inertial cues in a tightly-coupled fashion and operates in real time on an embedded platform. An extended Kalman filter fuses measurements and makes motion estimation rely more on inertial data if visual feature constellation is degenerate. Errors in roll and pitch are bounded implicitly by the gravity vector. Inertial sensors are used for efficient outlier detection and enable operation in poorly and repetitively textured environments. We demonstrate robustness and accuracy in an industrial scenario as well as in general indoor environments. The former is accompanied by a detailed performanc...
Accurate knowledge of geometric and inertia parameters are a necessity for precise and robust contro...
In this paper, we address the problem of ego-motion estimation by fusing visual and inertial informa...
Visual–inertial odometry is an effective system for mobile robot navigation. This article presents a...
An egomotion estimator that makes use of the com-plementary strengths of inertial and visual reading...
In this paper we present a method for fusing optical flow and inertial measurements. To this end, we...
Nowadays visual and inertial information is readily available from small mobile platforms, such as q...
Abstract—In this paper, an ego-motion estimation approach is introduced that fuses visual and inerti...
International audienceThis paper introduces a state estimation frameworkthat allows estimating the a...
For the control of unmanned aerial vehicles (UAVs) in GPS-denied environments, cameras have been wid...
To fully realize the benefit of a mobile sensor platform, it is essential to know where in space the...
The combination of visual and inertial sensors for state estimation has recently found wide echo in ...
This thesis is concerned with the motion estimation and control of Micro Aerial Vehicles (MAVs) usin...
In this work, we focus on the problem of pose estimation in unknown environments, using the measurem...
The focus of this thesis is a technique called egomotion estimation, which involves the extraction o...
The idea is to implement a vision-aided inertial navigation system (INS) for estimating inertial mea...
Accurate knowledge of geometric and inertia parameters are a necessity for precise and robust contro...
In this paper, we address the problem of ego-motion estimation by fusing visual and inertial informa...
Visual–inertial odometry is an effective system for mobile robot navigation. This article presents a...
An egomotion estimator that makes use of the com-plementary strengths of inertial and visual reading...
In this paper we present a method for fusing optical flow and inertial measurements. To this end, we...
Nowadays visual and inertial information is readily available from small mobile platforms, such as q...
Abstract—In this paper, an ego-motion estimation approach is introduced that fuses visual and inerti...
International audienceThis paper introduces a state estimation frameworkthat allows estimating the a...
For the control of unmanned aerial vehicles (UAVs) in GPS-denied environments, cameras have been wid...
To fully realize the benefit of a mobile sensor platform, it is essential to know where in space the...
The combination of visual and inertial sensors for state estimation has recently found wide echo in ...
This thesis is concerned with the motion estimation and control of Micro Aerial Vehicles (MAVs) usin...
In this work, we focus on the problem of pose estimation in unknown environments, using the measurem...
The focus of this thesis is a technique called egomotion estimation, which involves the extraction o...
The idea is to implement a vision-aided inertial navigation system (INS) for estimating inertial mea...
Accurate knowledge of geometric and inertia parameters are a necessity for precise and robust contro...
In this paper, we address the problem of ego-motion estimation by fusing visual and inertial informa...
Visual–inertial odometry is an effective system for mobile robot navigation. This article presents a...