Autonomous landing is a challenging and important technology for both military and civilian applications of Unmanned Aerial Vehicles (UAVs). In this paper, we present a novel online adaptive visual tracking algorithm for UAVs to land on an arbitrary field (that can be used as the helipad) autonomously at real-time frame rates of more than twenty frames per second. The integration of low-dimensional subspace representation method, online incremental learning approach and hierarchical tracking strategy allows the autolanding task to overcome the problems generated by the challenging situations such as significant appearance change, variant surrounding illumination, partial helipad occlusion, rapid pose variation, onboard mechanical vibration ...
Aircraft tracking plays a key and important role in the Sense-and-Avoid system of Unmanned Aerial Ve...
The paper discusses an intelligent vision-based control solution for autonomous tracking and landing...
In this work, we propose a robust network-in-the-loop control system for autonomous navigation and l...
peer reviewedAutonomous landing is a challenging and important technology for both military and civi...
Autonomous landing is a challenging and important technology for both military and civilian applicat...
In this paper, we apply a hierarchical tracking strategy of planar objects (or that can be assumed t...
In this paper, we present a real-time tracking strategy based on direct methods for tracking tasks o...
peer reviewedAircraft tracking plays a key and important role in the Sense-and-Avoid system of Unma...
In this paper, we apply a hierarchical tracking strategy of planar objects (or that can be assumed t...
peer reviewedIn this paper, we present a real-time tracking strategy based on direct methods for tr...
In recent years, several research activities have been developed in order to increase the autonomy f...
AbstractIn vision-based autonomous landing system of UAV, the efficiency of target detecting and tra...
This paper addresses the problem of developing an algorithm for autonomous ship landing of vertical ...
Fully autonomous landing on moving platforms poses a problem of importance for Unmanned Aerial Vehic...
This paper addresses vision-based tracking and landing of a micro-aerial vehicle (MAV) on a ground v...
Aircraft tracking plays a key and important role in the Sense-and-Avoid system of Unmanned Aerial Ve...
The paper discusses an intelligent vision-based control solution for autonomous tracking and landing...
In this work, we propose a robust network-in-the-loop control system for autonomous navigation and l...
peer reviewedAutonomous landing is a challenging and important technology for both military and civi...
Autonomous landing is a challenging and important technology for both military and civilian applicat...
In this paper, we apply a hierarchical tracking strategy of planar objects (or that can be assumed t...
In this paper, we present a real-time tracking strategy based on direct methods for tracking tasks o...
peer reviewedAircraft tracking plays a key and important role in the Sense-and-Avoid system of Unma...
In this paper, we apply a hierarchical tracking strategy of planar objects (or that can be assumed t...
peer reviewedIn this paper, we present a real-time tracking strategy based on direct methods for tr...
In recent years, several research activities have been developed in order to increase the autonomy f...
AbstractIn vision-based autonomous landing system of UAV, the efficiency of target detecting and tra...
This paper addresses the problem of developing an algorithm for autonomous ship landing of vertical ...
Fully autonomous landing on moving platforms poses a problem of importance for Unmanned Aerial Vehic...
This paper addresses vision-based tracking and landing of a micro-aerial vehicle (MAV) on a ground v...
Aircraft tracking plays a key and important role in the Sense-and-Avoid system of Unmanned Aerial Ve...
The paper discusses an intelligent vision-based control solution for autonomous tracking and landing...
In this work, we propose a robust network-in-the-loop control system for autonomous navigation and l...