In this paper we tackle the problem of landing a helicopter autonomously on a ship deck, using as the main sensor, an on-board colour camera. To create a test-bed, we first adequately simulate the movement of a ship landing platform on the Sea, for different Sea States, for different ships, randomly and realistically enough. We use a commercial parallel robot to get this movement. Once we had this, we developed an accurate and robust computer vision system to measure the pose of the helipad with respect to the on-board camera. To deal with the noise and the possible fails of the computer vision, a state estimator was created. With all of this, we are now able to develop and test a controller that closes the loop and finish the autonomous la...
This research focuses on developing a helicopter autonomous ship landing algorithm based on the real...
In this paper a solution to UAV reduced endurance and autonomous flight is proposed. With a complete...
Multirotor Unmanned Aerial Vehicles (UAVs) high maneuverability and their capability to hover, makes...
peer reviewedIn this paper we tackle the problem of landing a helicopter autonomously on a ship deck...
Landing an Unmanned Aerial Vehicle (UAV) autonomously and safely on a ship's flight deck is a challe...
Autonomous takeoff and landing are crucial for unmanned aerial vehicles (UAVs) to perform various mi...
This paper introduces a procedure for autonomous landing of a quadrotor on an unmanned surface vehic...
In this paper, a method to control a small multi-rotor unmanned aerial system (UAS) while landing on...
The paper discusses an intelligent vision-based control solution for autonomous tracking and landing...
In this paper, we investigate the problem of using computer vision as a sensor to control the landin...
We present the design and implementation of a real-time, vision-based landing algorithm for an auton...
Many aerial robotic applications require the ability to land on moving platforms, such as delivery t...
In this paper a feature based single camera vision system for the safe landing of an unmanned aerial...
Unmanned aerial vehicles (UAVs) are useful in various applications, one of which is in the field of ...
Fig. 1: Real-time visualization of the proposed system for autonomously landing a UAV on a transitin...
This research focuses on developing a helicopter autonomous ship landing algorithm based on the real...
In this paper a solution to UAV reduced endurance and autonomous flight is proposed. With a complete...
Multirotor Unmanned Aerial Vehicles (UAVs) high maneuverability and their capability to hover, makes...
peer reviewedIn this paper we tackle the problem of landing a helicopter autonomously on a ship deck...
Landing an Unmanned Aerial Vehicle (UAV) autonomously and safely on a ship's flight deck is a challe...
Autonomous takeoff and landing are crucial for unmanned aerial vehicles (UAVs) to perform various mi...
This paper introduces a procedure for autonomous landing of a quadrotor on an unmanned surface vehic...
In this paper, a method to control a small multi-rotor unmanned aerial system (UAS) while landing on...
The paper discusses an intelligent vision-based control solution for autonomous tracking and landing...
In this paper, we investigate the problem of using computer vision as a sensor to control the landin...
We present the design and implementation of a real-time, vision-based landing algorithm for an auton...
Many aerial robotic applications require the ability to land on moving platforms, such as delivery t...
In this paper a feature based single camera vision system for the safe landing of an unmanned aerial...
Unmanned aerial vehicles (UAVs) are useful in various applications, one of which is in the field of ...
Fig. 1: Real-time visualization of the proposed system for autonomously landing a UAV on a transitin...
This research focuses on developing a helicopter autonomous ship landing algorithm based on the real...
In this paper a solution to UAV reduced endurance and autonomous flight is proposed. With a complete...
Multirotor Unmanned Aerial Vehicles (UAVs) high maneuverability and their capability to hover, makes...