Quadcopters are highly maneuverable and can provide an effective means for an agile dynamic positioning of sensors such as cameras. In this paper we propose a method for the self-positioning of a team of camera-equipped quadcopters (flying cameras) around a moving target. The self-positioning task is driven by the maximization of the monitored surface of the moving target based on a dynamic flight model combined with a collision avoidance algorithm. Each flying camera only knows the relative distance of neighboring flying cameras and its desired position with respect to the target. Given a team of up to 12 flying cameras, we show they can achieve a stable time-varying formation around a moving target without collision
This paper presents a decentralized control strategy for positioning and orienting multiple robotic ...
Autonomous motion capture (mocap) systems for outdoor scenarios involving flying or mobile cameras r...
In this paper we present an algorithm for the autonomous navigation of an unmanned aerial vehicle (U...
Formations of camera-equipped quadrotors (flying cameras) have the actuation agility to track moving...
International audienceIn this paper, we focus mainly on formation control of a swarm of UAV's tracki...
Advances in unmanned flight have led to the development of Unmanned Air Systems that are capable of ...
The automatic analysis of images acquired by cameras mounted on board of drones (flying cameras) is ...
The widespread use of quadcopters as unmanned aerial ve-\ud hicles (UAVs) provides a number of appli...
We propose an approach to detect flying objects such as UAVs and aircrafts when they occupy a small ...
In this research work, we consider the control issues related to the recording of a moving ob-ject i...
Abstract — This paper describes a method for observing maneuvering targets using a group of mobile r...
International audienceThis paper deals with the problem of deploying a team of flying robots to perf...
Stabilizing and localizing the positioning systems autonomously in the areas without GPS accessibili...
The article of record as published may be found at http://dx.doi.org/10.1109/IROS.2016.77597332016 I...
We address the problem of assigning a team of drones to autonomously capture a set desired shots of ...
This paper presents a decentralized control strategy for positioning and orienting multiple robotic ...
Autonomous motion capture (mocap) systems for outdoor scenarios involving flying or mobile cameras r...
In this paper we present an algorithm for the autonomous navigation of an unmanned aerial vehicle (U...
Formations of camera-equipped quadrotors (flying cameras) have the actuation agility to track moving...
International audienceIn this paper, we focus mainly on formation control of a swarm of UAV's tracki...
Advances in unmanned flight have led to the development of Unmanned Air Systems that are capable of ...
The automatic analysis of images acquired by cameras mounted on board of drones (flying cameras) is ...
The widespread use of quadcopters as unmanned aerial ve-\ud hicles (UAVs) provides a number of appli...
We propose an approach to detect flying objects such as UAVs and aircrafts when they occupy a small ...
In this research work, we consider the control issues related to the recording of a moving ob-ject i...
Abstract — This paper describes a method for observing maneuvering targets using a group of mobile r...
International audienceThis paper deals with the problem of deploying a team of flying robots to perf...
Stabilizing and localizing the positioning systems autonomously in the areas without GPS accessibili...
The article of record as published may be found at http://dx.doi.org/10.1109/IROS.2016.77597332016 I...
We address the problem of assigning a team of drones to autonomously capture a set desired shots of ...
This paper presents a decentralized control strategy for positioning and orienting multiple robotic ...
Autonomous motion capture (mocap) systems for outdoor scenarios involving flying or mobile cameras r...
In this paper we present an algorithm for the autonomous navigation of an unmanned aerial vehicle (U...