Landing on a moving platform is an essential requirement to achieve high-performance autonomous flight with various vehicles, including quadrotors. We propose an efficient and reliable autonomous landing system, based on model predictive control, which can accurately land in the presence of external disturbances. To detect and track the landing marker, a fast two-stage algorithm is introduced in the gimbaled camera, while a model predictive controller with variable sampling time is used to predict and calculate the entire landing trajectory based on the estimated platform information. As the quadrotor approaches the target platform, the sampling time is gradually shortened to feed a re-planning process that perfects the landing trajectory c...
Planetary precision landing in non-cooperative sites has been a major challenge. An indoor novel pla...
Planetary precision landing in non-cooperative sites has been a major challenge. An indoor novel pla...
Using a student-built quadcopter, the navigation capabilities of autonomous aerial vehicles were exp...
Developing methods for autonomous landing of an unmanned aerial vehicle (UAV) on a mobile platform h...
Abstract To address the problems that the UAV (Unmanned Aerial Vehicle) is vulnerable to distance li...
© 2020 IEEE. Autonomous landing on a moving platform presents unique challenges for multirotor vehic...
This paper addresses the perception, control, and trajectory planning for an aerial platform to iden...
For unmanned aerial vehicles (UAVs), landing on a moving vehicle robustly is an open challenge, espe...
Fully autonomous landing on moving platforms poses a problem of importance for Unmanned Aerial Vehic...
The research on autonomous vehicles, and more specifically cooperation between autonomous vehicles, ...
International audienceThe uses of UAVs are developing rapidly and are now also used to extend human ...
In the existing vision-based autonomous landing systems for micro aerial vehicles (MAVs) on moving p...
Use of Unmanned Aerial Vehicles have seen enormous growth in recent years due to the advances in rel...
In the field of robotics, the quadrotors have rapidly gained interest and have made several breakthr...
Possibly the most critical phase of an Unmanned Air Vehicle (UAV) flight is landing. To reduce the r...
Planetary precision landing in non-cooperative sites has been a major challenge. An indoor novel pla...
Planetary precision landing in non-cooperative sites has been a major challenge. An indoor novel pla...
Using a student-built quadcopter, the navigation capabilities of autonomous aerial vehicles were exp...
Developing methods for autonomous landing of an unmanned aerial vehicle (UAV) on a mobile platform h...
Abstract To address the problems that the UAV (Unmanned Aerial Vehicle) is vulnerable to distance li...
© 2020 IEEE. Autonomous landing on a moving platform presents unique challenges for multirotor vehic...
This paper addresses the perception, control, and trajectory planning for an aerial platform to iden...
For unmanned aerial vehicles (UAVs), landing on a moving vehicle robustly is an open challenge, espe...
Fully autonomous landing on moving platforms poses a problem of importance for Unmanned Aerial Vehic...
The research on autonomous vehicles, and more specifically cooperation between autonomous vehicles, ...
International audienceThe uses of UAVs are developing rapidly and are now also used to extend human ...
In the existing vision-based autonomous landing systems for micro aerial vehicles (MAVs) on moving p...
Use of Unmanned Aerial Vehicles have seen enormous growth in recent years due to the advances in rel...
In the field of robotics, the quadrotors have rapidly gained interest and have made several breakthr...
Possibly the most critical phase of an Unmanned Air Vehicle (UAV) flight is landing. To reduce the r...
Planetary precision landing in non-cooperative sites has been a major challenge. An indoor novel pla...
Planetary precision landing in non-cooperative sites has been a major challenge. An indoor novel pla...
Using a student-built quadcopter, the navigation capabilities of autonomous aerial vehicles were exp...