In this paper, we present an on-board vision-based approach for avoidance of moving obstacles in dynamic environments. Our approach relies on an efficient obstacle detection and tracking algorithm based on depth image pairs, which provides the estimated position, velocity and size of the obstacles. Robust collision avoidance is achieved by formulating a chance-constrained model predictive controller (CC-MPC) to ensure that the collision probability between the micro aerial vehicle (MAV) and each moving obstacle is below a specified threshold. The method takes into account MAV dynamics, state estimation and obstacle sensing uncertainties. The proposed approach is implemented on a quadrotor equipped with a stereo camera and is tested in a var...
Using robots to navigate through un-mapped environments, specially man-made infrastructures, for the...
The Micro Aerial Vehicless (MAVs) are gaining attention in numerous applications asthese platforms a...
The teleoperation of aerial vehicles can be onerous for naive operators unless the robot is endowed ...
In this paper, we present an on-board vision-based approach for avoidance of moving obstacles in dyn...
Safe navigation in unknown environments is a challenging task for autonomous Micro Aerial Vehicle (M...
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...
For Micro Aerial Vehicles (MAVs), robust obstacle avoidance during flight is a challenging problem b...
Abstract — We present a novel stereo-based obstacle avoid-ance system on a vision-guided micro air v...
One of the challenges in deploying Micro Aerial Vehicless (MAVs) in unknown environments is the need...
One of the challenges in deploying Micro Aerial Vehicless (MAVs) in unknown environments is the need...
One of the challenges in deploying Micro Aerial Vehicless (MAVs) in unknown environments is the need...
Abstract. Automatic obstacle detection and avoidance is a key component for the success of micro-aer...
The Micro Aerial Vehicless (MAVs) are gaining attention in numerous applications asthese platforms a...
Abstract—Reliably perceiving obstacles and avoiding colli-sions is key for the fully autonomous appl...
Using robots to navigate through un-mapped environments, specially man-made infrastructures, for the...
The Micro Aerial Vehicless (MAVs) are gaining attention in numerous applications asthese platforms a...
The teleoperation of aerial vehicles can be onerous for naive operators unless the robot is endowed ...
In this paper, we present an on-board vision-based approach for avoidance of moving obstacles in dyn...
Safe navigation in unknown environments is a challenging task for autonomous Micro Aerial Vehicle (M...
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...
For Micro Aerial Vehicles (MAVs), robust obstacle avoidance during flight is a challenging problem b...
Abstract — We present a novel stereo-based obstacle avoid-ance system on a vision-guided micro air v...
One of the challenges in deploying Micro Aerial Vehicless (MAVs) in unknown environments is the need...
One of the challenges in deploying Micro Aerial Vehicless (MAVs) in unknown environments is the need...
One of the challenges in deploying Micro Aerial Vehicless (MAVs) in unknown environments is the need...
Abstract. Automatic obstacle detection and avoidance is a key component for the success of micro-aer...
The Micro Aerial Vehicless (MAVs) are gaining attention in numerous applications asthese platforms a...
Abstract—Reliably perceiving obstacles and avoiding colli-sions is key for the fully autonomous appl...
Using robots to navigate through un-mapped environments, specially man-made infrastructures, for the...
The Micro Aerial Vehicless (MAVs) are gaining attention in numerous applications asthese platforms a...
The teleoperation of aerial vehicles can be onerous for naive operators unless the robot is endowed ...