In this paper, we present a collision-free indoor navigation algorithm for teleoperated multirotor Unmanned Aerial Vehicles (UAVs). Assuming an obstacle rich environment, the algorithm keeps track of detected obstacles in the local surroundings of the robot. The detection part of the algorithm is based on measurements from an RGB-D camera and a Bin-Occupancy filter capable of tracking an unspecified number of targets. We use the estimate of the robot’s velocity to update the obstacles state when they leave the direct field of view of the sensor. The avoidance part of the algorithm is based on the Model Predictive Control approach. By predicting the possible future obstacles states, it filters the operator commands to prevent collisions. The...
In this paper, we present an on-board vision-based approach for avoidance of moving obstacles in dyn...
Autonomous multirotor aerial vehicles have great potential to address and optimize solutions for man...
In this article, a vision-based technique for obstacle avoidance and target identification is combin...
In this paper, we present a collision-free indoor navigation algorithm for teleoperated multirotor U...
Indoor operation of unmanned aerial vehicles (UAV s) poses many challenges due to the lack of GPS si...
Indoor operation of unmanned aerial vehicles (UAVs) poses many challenges due to the lack of GPS sig...
Indoor operation of Unmanned Aerial Vehicles (UAVs) is challenging due to the lack of GPS signal and...
In this work, a real-time collision avoidance algorithm was presented for autonomous navigation in t...
In this work, a real-time collision avoidance algorithm was presented for autonomous navigation in t...
This paper describes an obstacle avoidance system for low-cost Unmanned Aerial Vehicles (UAVs) using...
This paper describes an obstacle avoidance system for low-cost Unmanned Aerial Vehicles (UAVs) using...
The use of Unmanned Aerial Vehicles (UAVs) for indoor operation is rising in demand with application...
In this paper, we introduce the Obstacle Detection and Avoidance (ODA) Dataset for Drones, aiming at...
This paper takes autonomous exploration in unknown environments on a small co-axial twin-rotor unman...
This thesis proposes a collision avoidance and state estimation algorithm augmented by simple path p...
In this paper, we present an on-board vision-based approach for avoidance of moving obstacles in dyn...
Autonomous multirotor aerial vehicles have great potential to address and optimize solutions for man...
In this article, a vision-based technique for obstacle avoidance and target identification is combin...
In this paper, we present a collision-free indoor navigation algorithm for teleoperated multirotor U...
Indoor operation of unmanned aerial vehicles (UAV s) poses many challenges due to the lack of GPS si...
Indoor operation of unmanned aerial vehicles (UAVs) poses many challenges due to the lack of GPS sig...
Indoor operation of Unmanned Aerial Vehicles (UAVs) is challenging due to the lack of GPS signal and...
In this work, a real-time collision avoidance algorithm was presented for autonomous navigation in t...
In this work, a real-time collision avoidance algorithm was presented for autonomous navigation in t...
This paper describes an obstacle avoidance system for low-cost Unmanned Aerial Vehicles (UAVs) using...
This paper describes an obstacle avoidance system for low-cost Unmanned Aerial Vehicles (UAVs) using...
The use of Unmanned Aerial Vehicles (UAVs) for indoor operation is rising in demand with application...
In this paper, we introduce the Obstacle Detection and Avoidance (ODA) Dataset for Drones, aiming at...
This paper takes autonomous exploration in unknown environments on a small co-axial twin-rotor unman...
This thesis proposes a collision avoidance and state estimation algorithm augmented by simple path p...
In this paper, we present an on-board vision-based approach for avoidance of moving obstacles in dyn...
Autonomous multirotor aerial vehicles have great potential to address and optimize solutions for man...
In this article, a vision-based technique for obstacle avoidance and target identification is combin...