Consider a set of n finite set of simple autonomous mobile robots (asynchronous, no common coordinate system, no identities, no central coordination, no direct communication, no memory of the past, non-rigid, deterministic) initially in distinct locations, moving freely in the plane and able to sense the positions of the other robots. We study the primitive task of the robots arranging themselves on the vertices of a regular n-gon not fixed in advance (Uniform Circle Formation). In the literature, the existing algorithmic contributions are limited to conveniently restricted sets of initial configurations of the robots and to more powerful robots. The question of whether such simple robots could deterministically form a uniform circle has re...
International audienceWe present two non-trivial deterministic protocols that solve the circle forma...
This paper proposes a distributed algorithm by which a collection of mobile robots roaming on a plan...
The study of what can be computed by a team of autonomous mobile robots, originally started in robot...
Consider a set of n ̸= 4 simple autonomous mobile robots (decentralized, asynchronous, no common coo...
Consider a set of n finite set of simple autonomous mobile robots (asynchronous, no common coordinat...
International audienceRecent advances in robotics technology have made it practical to deploy a larg...
AbstractThis paper presents a distributed algorithm whereby a group of mobile robots self-organize a...
This paper presents a distributed algorithm whereby a group of mobile robots self-organize and posit...
Among fundamental problems in the context of distributed computing by mobile robots, the Pattern For...
Consider a set of n > 2 identical mobile compu tational entities in the plane, called robots, operat...
This paper proposes a distributed algorithm by which a collection of mobile robots roaming on a plan...
Consider a set of n > 2 identical mobile computational entities in the plane, called robots, operati...
The Uniform Circle Formation problem requires a swarm of mobile agents, arbitrarily positioned onto ...
This paper presents a distributed algorithm whereby a group of mobile robots self-organize and posit...
This paper proposes a distributed control law for a group of mobile robots to form any given formati...
International audienceWe present two non-trivial deterministic protocols that solve the circle forma...
This paper proposes a distributed algorithm by which a collection of mobile robots roaming on a plan...
The study of what can be computed by a team of autonomous mobile robots, originally started in robot...
Consider a set of n ̸= 4 simple autonomous mobile robots (decentralized, asynchronous, no common coo...
Consider a set of n finite set of simple autonomous mobile robots (asynchronous, no common coordinat...
International audienceRecent advances in robotics technology have made it practical to deploy a larg...
AbstractThis paper presents a distributed algorithm whereby a group of mobile robots self-organize a...
This paper presents a distributed algorithm whereby a group of mobile robots self-organize and posit...
Among fundamental problems in the context of distributed computing by mobile robots, the Pattern For...
Consider a set of n > 2 identical mobile compu tational entities in the plane, called robots, operat...
This paper proposes a distributed algorithm by which a collection of mobile robots roaming on a plan...
Consider a set of n > 2 identical mobile computational entities in the plane, called robots, operati...
The Uniform Circle Formation problem requires a swarm of mobile agents, arbitrarily positioned onto ...
This paper presents a distributed algorithm whereby a group of mobile robots self-organize and posit...
This paper proposes a distributed control law for a group of mobile robots to form any given formati...
International audienceWe present two non-trivial deterministic protocols that solve the circle forma...
This paper proposes a distributed algorithm by which a collection of mobile robots roaming on a plan...
The study of what can be computed by a team of autonomous mobile robots, originally started in robot...