A swarm of autonomous drones with self-coordination and environment adaptation can offer a robust, scalable and flexible manner to localize objects in an unexplored, dangerous or unstructured environment. We design a novel coordination algorithm combining three biologically-inspired processes: stigmergy, flocking and evolution. Stigmergy, a form of coordination exhibited by social insects, is exploited to attract drones in areas with potential targets. Flocking enables efficient cooperation between flock mates upon target detection, while keeping an effective scan. The two mechanisms can interoperate if their structural parameters are correctly tuned for a given scenario. Differential evolution adapts the swarm coordination according to env...
Unmanned aerial vehicles have gained a lot of interest in recent times, due to their potential use i...
Several of our technological breakthroughs are influenced by types of behavior and structures develo...
In most swarm systems, agents are either aware of the position of their direct neighbors or they pos...
A swarm of autonomous drones with self-coordination and environment adaptation can offer a robust, s...
Due to growing endurance, safety and non-invasivity, small drones can be increasingly experimented i...
Unmanned Aerial Vehicles (UAVs) have a great potential to support search tasks in unstructured envir...
This paper focuses on the problem of coordinating multiple UAVs for distributed targets detection an...
The usage of UAVs (Unmanned Aerial Vehicles) has been increasing in the last few years. One of the m...
Recent miniaturization in Unmanned Aerial Vehicles (UAVs) technology encourages the use of many smal...
In this paper we propose a novel algorithm for adaptive coordination of drones, which performs colla...
In recent years unmanned aerial vehicles (UAVs) have become smaller, cheaper, and more efficient, en...
We address a fundamental issue of collective motion of aerial robots: how to ensure that large flock...
The paradigm of swarm robotics aims to enable several independent robots to collaborate together tow...
Swarms of flying robots can be used in disaster areas to autonomously create communication networks ...
Over the last years advantages in autonomous agent systems and technology have created many potentia...
Unmanned aerial vehicles have gained a lot of interest in recent times, due to their potential use i...
Several of our technological breakthroughs are influenced by types of behavior and structures develo...
In most swarm systems, agents are either aware of the position of their direct neighbors or they pos...
A swarm of autonomous drones with self-coordination and environment adaptation can offer a robust, s...
Due to growing endurance, safety and non-invasivity, small drones can be increasingly experimented i...
Unmanned Aerial Vehicles (UAVs) have a great potential to support search tasks in unstructured envir...
This paper focuses on the problem of coordinating multiple UAVs for distributed targets detection an...
The usage of UAVs (Unmanned Aerial Vehicles) has been increasing in the last few years. One of the m...
Recent miniaturization in Unmanned Aerial Vehicles (UAVs) technology encourages the use of many smal...
In this paper we propose a novel algorithm for adaptive coordination of drones, which performs colla...
In recent years unmanned aerial vehicles (UAVs) have become smaller, cheaper, and more efficient, en...
We address a fundamental issue of collective motion of aerial robots: how to ensure that large flock...
The paradigm of swarm robotics aims to enable several independent robots to collaborate together tow...
Swarms of flying robots can be used in disaster areas to autonomously create communication networks ...
Over the last years advantages in autonomous agent systems and technology have created many potentia...
Unmanned aerial vehicles have gained a lot of interest in recent times, due to their potential use i...
Several of our technological breakthroughs are influenced by types of behavior and structures develo...
In most swarm systems, agents are either aware of the position of their direct neighbors or they pos...