In this work, we address the problem of achieving cohesive and aligned flocking (collective motion) with a swarm of unmanned aerial vehicles (UAVs). We propose a method that requires only onboard sensing of the relative range and bearing of neighboring UAVs, and therefore requires only proximal control for achieving formation. Our method efficiently achieves flocking in the absence of any explicit orientation information exchange (alignment control), and achieves flocking in a random direction without externally provided directional information. To implement proximal control, the Lennard-Jones potential function is used to maintain cohesiveness and avoid collisions. Our approach may be used independently from any external positioning system...
We address a fundamental issue of collective motion of aerial robots: how to ensure that large flock...
Tanner, Herbert G.This thesis is addressing the integration of path following and formation control ...
International audienceIn this paper, we focus mainly on formation control of a swarm of UAV's tracki...
In this work, we address the problem of achieving cohesive and aligned flocking (collective motion) ...
This paper presents a 3D flocking algorithm for a team of unmanned aerial vehicles (UAVs), where eac...
Potential function based swarm control is a technique using artificial potential functions to genera...
This article considers the distributed control of a swarm of unmanned aerial vehicles (UAVs) investi...
This paper studies self-organized flocking in a swarm of mo- bile robots. We present Kobot, a mobile...
Flocking and swarming are inspired by nature. Swarming formation involves a large number of agents o...
In this paper, we present “bearing-and-range-only” approach for a self-organized flocking, which all...
Several of our technological breakthroughs are influenced by types of behavior and structures develo...
In this paper, we study self-organized flocking in a swarm of mobile robots. We present Kobot, a mob...
Nowadays, research in autonomous drones has increased thanks to the advancement of drone technology....
This paper describes the design of a three-dimensional formation flying guidance and control algorit...
Unmanned aerial vehicles have developed rapidly in recent years due to technological advances. UAV t...
We address a fundamental issue of collective motion of aerial robots: how to ensure that large flock...
Tanner, Herbert G.This thesis is addressing the integration of path following and formation control ...
International audienceIn this paper, we focus mainly on formation control of a swarm of UAV's tracki...
In this work, we address the problem of achieving cohesive and aligned flocking (collective motion) ...
This paper presents a 3D flocking algorithm for a team of unmanned aerial vehicles (UAVs), where eac...
Potential function based swarm control is a technique using artificial potential functions to genera...
This article considers the distributed control of a swarm of unmanned aerial vehicles (UAVs) investi...
This paper studies self-organized flocking in a swarm of mo- bile robots. We present Kobot, a mobile...
Flocking and swarming are inspired by nature. Swarming formation involves a large number of agents o...
In this paper, we present “bearing-and-range-only” approach for a self-organized flocking, which all...
Several of our technological breakthroughs are influenced by types of behavior and structures develo...
In this paper, we study self-organized flocking in a swarm of mobile robots. We present Kobot, a mob...
Nowadays, research in autonomous drones has increased thanks to the advancement of drone technology....
This paper describes the design of a three-dimensional formation flying guidance and control algorit...
Unmanned aerial vehicles have developed rapidly in recent years due to technological advances. UAV t...
We address a fundamental issue of collective motion of aerial robots: how to ensure that large flock...
Tanner, Herbert G.This thesis is addressing the integration of path following and formation control ...
International audienceIn this paper, we focus mainly on formation control of a swarm of UAV's tracki...