Teleoperation of unmanned aerial vehicles often demands extensive training. Yet, even well trained pilots are prone to mistakes, resulting frequently in collisions of the vehicle with obstacles. This paper presents a method to assist the tele-operation of a quadrotor using an obstacle avoidance approach. In particular, rough map of the nearby environment is constructed using sonar sensors. This map is constructed using FastSLAM to allow tracking of the vehicle position with respect to the map. The map is then used to override operator commands that may lead to a collision. An unknown and GPS denied environment is considered. Experimental results using the USARsim simulator are presented
Unmanned Aerial Vehicles (UAVs) use is on the rise, both for civilian and military applications. Aut...
Abstract—A simple approach for obstacle detection and collision avoidance of an autonomous flying qu...
Small Uninhabited Aerial Vehicles to be operated at low altitude in obstacle prone environments requ...
This thesis deals with remotely piloted aerial vehicles teleoperation focusing on the collision avoi...
In this article, a vision-based technique for obstacle avoidance and target identification is combin...
UAV teleoperation is a demanding task: to successfully accomplish the mission without collision requ...
This thesis proposes a collision avoidance and state estimation algorithm augmented by simple path p...
Indoor operation of Unmanned Aerial Vehicles (UAVs) is challenging due to the lack of GPS signal and...
In this paper, we present a collision-free indoor navigation algorithm for teleoperated multirotor U...
The large growth that the civil Unmanned Aerial Vehicles (UAVs) market has experienced in the last ...
The use of Unmanned Aerial Vehicles (UAVs) for indoor operation is rising in demand with application...
Indoor operation of unmanned aerial vehicles (UAVs) poses many challenges due to the lack of GPS sig...
This article presents a novel flight assistance system, obstacle avoidance system for teleoperation ...
This research investigates and proposes a new method for obstacle detection and avoidance on quadrot...
peer reviewedUAV teleoperation is a demanding task, especially for amateur operators who wish to suc...
Unmanned Aerial Vehicles (UAVs) use is on the rise, both for civilian and military applications. Aut...
Abstract—A simple approach for obstacle detection and collision avoidance of an autonomous flying qu...
Small Uninhabited Aerial Vehicles to be operated at low altitude in obstacle prone environments requ...
This thesis deals with remotely piloted aerial vehicles teleoperation focusing on the collision avoi...
In this article, a vision-based technique for obstacle avoidance and target identification is combin...
UAV teleoperation is a demanding task: to successfully accomplish the mission without collision requ...
This thesis proposes a collision avoidance and state estimation algorithm augmented by simple path p...
Indoor operation of Unmanned Aerial Vehicles (UAVs) is challenging due to the lack of GPS signal and...
In this paper, we present a collision-free indoor navigation algorithm for teleoperated multirotor U...
The large growth that the civil Unmanned Aerial Vehicles (UAVs) market has experienced in the last ...
The use of Unmanned Aerial Vehicles (UAVs) for indoor operation is rising in demand with application...
Indoor operation of unmanned aerial vehicles (UAVs) poses many challenges due to the lack of GPS sig...
This article presents a novel flight assistance system, obstacle avoidance system for teleoperation ...
This research investigates and proposes a new method for obstacle detection and avoidance on quadrot...
peer reviewedUAV teleoperation is a demanding task, especially for amateur operators who wish to suc...
Unmanned Aerial Vehicles (UAVs) use is on the rise, both for civilian and military applications. Aut...
Abstract—A simple approach for obstacle detection and collision avoidance of an autonomous flying qu...
Small Uninhabited Aerial Vehicles to be operated at low altitude in obstacle prone environments requ...