We address a fundamental issue of collective motion of aerial robots: how to ensure that large flocks of autonomous drones seamlessly navigate in confined spaces. The numerous existing flocking models are rarely tested on actual hardware because they typically neglect some crucial aspects of multirobot systems. Constrained motion and communication capabilities, delays, perturbations, or the presence of barriers should be modeled and treated explicitly because they have large effects on collective behavior during the cooperation of real agents. Handling these issues properly results in additional model complexity and a natural increase in the number of tunable parameters, which calls for appropriate optimization methods to be coupled tightly...
This paper presents a novel flocking strategy for a large-scale swarm of robots that enables the rob...
Classical models of aerial swarms often describe global coordinated motion as the combination of loc...
This work presents the evolutionary optimization of a self-organized flocking controller for a swarm...
We address a fundamental issue of collectivemotion of aerial robots: howto ensure that large flocks ...
We address a fundamental issue of collective motion of aerial robots: how to ensure that large flock...
In this paper we present a general, decentralized air traffic control solution using autonomous dro...
A swarm of autonomous drones with self-coordination and environment adaptation can offer a robust, s...
For many real-life applications such as monitoring, mapping, search-and-rescue or ad-hoc communicati...
Individual agents in natural systems like flocks of birds or schools offish display a remarkable abi...
The use of unmanned aerial vehicles (UAV), so-called drones, has been growingrapidly in the last dec...
Swarms of aerial robots are no longer science-fiction. They are now used for diverse purposes such a...
The interest in multi-drone systems flourished in the last decade and their application is promising...
The use of aerial swarms to solve real-world problems has been increasing steadily, accompanied by f...
The paradigm of swarm robotics aims to enable several independent robots to collaborate together tow...
Swarm behaviors offer scalability and robustness to failure through a decentralized and distributed ...
This paper presents a novel flocking strategy for a large-scale swarm of robots that enables the rob...
Classical models of aerial swarms often describe global coordinated motion as the combination of loc...
This work presents the evolutionary optimization of a self-organized flocking controller for a swarm...
We address a fundamental issue of collectivemotion of aerial robots: howto ensure that large flocks ...
We address a fundamental issue of collective motion of aerial robots: how to ensure that large flock...
In this paper we present a general, decentralized air traffic control solution using autonomous dro...
A swarm of autonomous drones with self-coordination and environment adaptation can offer a robust, s...
For many real-life applications such as monitoring, mapping, search-and-rescue or ad-hoc communicati...
Individual agents in natural systems like flocks of birds or schools offish display a remarkable abi...
The use of unmanned aerial vehicles (UAV), so-called drones, has been growingrapidly in the last dec...
Swarms of aerial robots are no longer science-fiction. They are now used for diverse purposes such a...
The interest in multi-drone systems flourished in the last decade and their application is promising...
The use of aerial swarms to solve real-world problems has been increasing steadily, accompanied by f...
The paradigm of swarm robotics aims to enable several independent robots to collaborate together tow...
Swarm behaviors offer scalability and robustness to failure through a decentralized and distributed ...
This paper presents a novel flocking strategy for a large-scale swarm of robots that enables the rob...
Classical models of aerial swarms often describe global coordinated motion as the combination of loc...
This work presents the evolutionary optimization of a self-organized flocking controller for a swarm...