Autonomous flight of pocket drones is challenging due to the severe limitations on on-board energy, sensing, and processing power. However, tiny drones have great potential as their small size allows maneuvering through narrow spaces while their small weight provides significant safety advantages. This paper presents a computationally efficient algorithm for determining optical flow, which can be run on an STM32F4 microprocessor (168 MHz) of a 4 gram stereo-camera. The optical flow algorithm is based on edge histograms. We propose a matching scheme to determine local optical flow. Moreover, the method allows for sub-pixel flow determination based on time horizon adaptation. We demonstrate velocity measurements in flight and use it within a ...
Robotic vision has become an important field of research for micro aerial vehicles in the recent yea...
In this work, we propose a method for estimating depth for an image of a monocular camera in order t...
The devised approaches are adapted to the complicated conditions of observation in certain real task...
Autonomous flight of pocket drones is challenging due to the severe limitations on on-board energy, ...
Miniature Micro Aerial Vehicles (MAV) are very suitable for flying in indoor environments, but auton...
Small flying robots can perform landing maneuvers using bio-inspired optical flow by maintaining a c...
Monocular vision is increasingly used in micro air vehicles for navigation. In particular, optical f...
Robot vision became a field of increasing importance in micro aerial vehicle robotics with the avail...
Abstract — A high update rate of metric velocity values is crucial for a robust operation of navigat...
For use in autonomous micro air vehicles, visual sensors must not only be small, lightweight and ins...
Optical Flow (OF) is the movement pattern of pixels or edges that is caused in a visual scene by the...
We aim at developing autonomous miniature hov- ering flying robots capable of navigating in unstruct...
International audienceEstimating the distance traveled while navigating in a GPS-deprived environmen...
The most simplistic acts in nature can be incredibly complex to replicate. Among which, insects in g...
With the emergence of rotorcraft unmanned aerial systems (UAS) in civilian applications, the capabil...
Robotic vision has become an important field of research for micro aerial vehicles in the recent yea...
In this work, we propose a method for estimating depth for an image of a monocular camera in order t...
The devised approaches are adapted to the complicated conditions of observation in certain real task...
Autonomous flight of pocket drones is challenging due to the severe limitations on on-board energy, ...
Miniature Micro Aerial Vehicles (MAV) are very suitable for flying in indoor environments, but auton...
Small flying robots can perform landing maneuvers using bio-inspired optical flow by maintaining a c...
Monocular vision is increasingly used in micro air vehicles for navigation. In particular, optical f...
Robot vision became a field of increasing importance in micro aerial vehicle robotics with the avail...
Abstract — A high update rate of metric velocity values is crucial for a robust operation of navigat...
For use in autonomous micro air vehicles, visual sensors must not only be small, lightweight and ins...
Optical Flow (OF) is the movement pattern of pixels or edges that is caused in a visual scene by the...
We aim at developing autonomous miniature hov- ering flying robots capable of navigating in unstruct...
International audienceEstimating the distance traveled while navigating in a GPS-deprived environmen...
The most simplistic acts in nature can be incredibly complex to replicate. Among which, insects in g...
With the emergence of rotorcraft unmanned aerial systems (UAS) in civilian applications, the capabil...
Robotic vision has become an important field of research for micro aerial vehicles in the recent yea...
In this work, we propose a method for estimating depth for an image of a monocular camera in order t...
The devised approaches are adapted to the complicated conditions of observation in certain real task...