One of the key tasks of autonomous mobile robots is to explore the unknown environment under limited energy and deadline conditions. In this paper, we focus on one of the most efficient random walks found in the natural and biological system, i.e., Lévy walk. We show how Lévy properties disappear in larger robot swarm sizes because of spatial interferences and propose a novel behavioral algorithm to preserve Lévy properties at the collective level. Our initial findings hold potential to accelerate target search processes in large unknown environments by parallelizing Lévy exploration using a group of robots
Exploration of unknown environments has numerous applications in the domains of search and rescue, p...
Advances in robotic mobility and sensing technology have the potential to provide new capabilities i...
Whenever multiple robots have to solve a common task, they need to coordinate their actions to carry...
A key aspect of foraging in robot swarms is optimizing the search efficiency when both the environme...
A key aspect of foraging in robot swarms is optimizing the search efficiency when both the environme...
An environment can be searched far more efficiently if the appropriate search strategy is used. Beca...
Research in swarm robotics has shown that robot swarms are effective in the exploration of unknown e...
In this paper we consider the problem of exploring an unknown environment by a team of robots. As in...
We propose a novel algorithm that allows a small team of robots to fully explore an unknown environm...
Swarm robotics coordinates multiple interacting robots for which it takes inspiration from nature. I...
In this paper, we propose a new method for exploring an unknown environment with a team of homogeneo...
Biologically inspired strategies have long been adapted to swarm robotic systems, including biased r...
Robots are utilized in activities such as mine detection, search and rescue, etc. Especially where t...
Collaborative robots represent an evolution in the field of swarm robotics that is pervasive in mode...
In this paper, we consider the problem of autonomous exploration of unknown environments with single...
Exploration of unknown environments has numerous applications in the domains of search and rescue, p...
Advances in robotic mobility and sensing technology have the potential to provide new capabilities i...
Whenever multiple robots have to solve a common task, they need to coordinate their actions to carry...
A key aspect of foraging in robot swarms is optimizing the search efficiency when both the environme...
A key aspect of foraging in robot swarms is optimizing the search efficiency when both the environme...
An environment can be searched far more efficiently if the appropriate search strategy is used. Beca...
Research in swarm robotics has shown that robot swarms are effective in the exploration of unknown e...
In this paper we consider the problem of exploring an unknown environment by a team of robots. As in...
We propose a novel algorithm that allows a small team of robots to fully explore an unknown environm...
Swarm robotics coordinates multiple interacting robots for which it takes inspiration from nature. I...
In this paper, we propose a new method for exploring an unknown environment with a team of homogeneo...
Biologically inspired strategies have long been adapted to swarm robotic systems, including biased r...
Robots are utilized in activities such as mine detection, search and rescue, etc. Especially where t...
Collaborative robots represent an evolution in the field of swarm robotics that is pervasive in mode...
In this paper, we consider the problem of autonomous exploration of unknown environments with single...
Exploration of unknown environments has numerous applications in the domains of search and rescue, p...
Advances in robotic mobility and sensing technology have the potential to provide new capabilities i...
Whenever multiple robots have to solve a common task, they need to coordinate their actions to carry...