The primary objective of this dissertation is to propose a robust vision-based multi-sensor fusion navigation system for lightweight unmanned aerial vehicles to navigate and perform complex tasks in a challenging environment. In recent years, the demand for autonomous drones has grown exponentially. Such applications can be the day to day routine goods delivery or inspection work in an area that humans can't reach. The proposed navigation system can run in real-time, low cost and with a high level of robustness. The proposed methods use the camera as the primary sensor to both odometry and mapping. Then the multi-sensor fusion is done to enhance the odometry reliability of the UAV system.Doctor of Philosoph
This paper presents an innovative method to estimate the performances of different candidate sensor ...
During last decade the scientific research on Unmanned Aerial Vehicless (UAVs) increased spectacular...
This paper presents an algorithm for cooperative UAV navigation that exploits vision-based sensing, ...
This paper presents an algorithm that allows an Unmanned Aerial Vehicle (UAV) to safely fly in GPS-...
This paper describes an UAV equipped with a control computer, flight controller, Lidar and depth cam...
Unmanned aerial vehicles (UAVs) market is projected to grow rapidly due to its versatility, costeffe...
Multirotor Unmanned Aerial Vehicles (UAVs) high maneuverability and their capability to hover, makes...
This paper presents a synthesis of techniques enabling vision-based autonomous Unmanned Aerial Vehic...
This project aims to develop an autonomous navigation system for an UAV using only a stereo camera. ...
The advances in microelectronics foster the Unmanned Aerial Vehicles (UAVs) to be used in many civil...
The range of missions performed by Unmanned Aircraft Systems (UAS) has been steadily growing in the ...
This paper presents a cooperative unmanned aerial vehicle navigation algorithm that allows a chief v...
The present paper describes an improved 4 DOF (x/y/z/yaw) vision based positioning solution for full...
Multicopters are lightweight and maneuverable aerial vehicles yet unable to carry heavy payloads, su...
THE USE OF UAVs (UNMANNED AERIAL VEHICLE), COMPACT PLANES WITHOUT CREW AND EQUIPPED WITH AUTONOMOUS ...
This paper presents an innovative method to estimate the performances of different candidate sensor ...
During last decade the scientific research on Unmanned Aerial Vehicless (UAVs) increased spectacular...
This paper presents an algorithm for cooperative UAV navigation that exploits vision-based sensing, ...
This paper presents an algorithm that allows an Unmanned Aerial Vehicle (UAV) to safely fly in GPS-...
This paper describes an UAV equipped with a control computer, flight controller, Lidar and depth cam...
Unmanned aerial vehicles (UAVs) market is projected to grow rapidly due to its versatility, costeffe...
Multirotor Unmanned Aerial Vehicles (UAVs) high maneuverability and their capability to hover, makes...
This paper presents a synthesis of techniques enabling vision-based autonomous Unmanned Aerial Vehic...
This project aims to develop an autonomous navigation system for an UAV using only a stereo camera. ...
The advances in microelectronics foster the Unmanned Aerial Vehicles (UAVs) to be used in many civil...
The range of missions performed by Unmanned Aircraft Systems (UAS) has been steadily growing in the ...
This paper presents a cooperative unmanned aerial vehicle navigation algorithm that allows a chief v...
The present paper describes an improved 4 DOF (x/y/z/yaw) vision based positioning solution for full...
Multicopters are lightweight and maneuverable aerial vehicles yet unable to carry heavy payloads, su...
THE USE OF UAVs (UNMANNED AERIAL VEHICLE), COMPACT PLANES WITHOUT CREW AND EQUIPPED WITH AUTONOMOUS ...
This paper presents an innovative method to estimate the performances of different candidate sensor ...
During last decade the scientific research on Unmanned Aerial Vehicless (UAVs) increased spectacular...
This paper presents an algorithm for cooperative UAV navigation that exploits vision-based sensing, ...