International audienceIn this paper, we investigate the exclusive perpetual exploration of grid shaped networks using anonymous, oblivious and fully asynchronous robots. Our results hold for robots without sense of direction (i.e. they do not agree on a common North, nor do they agree on a common left and right ; furthermore, the "North" and "left" of each robot is decided by an adversary that schedules robots for execution, and may change between invocations of particular robots). We focus on the minimal number of robots that are necessary and sufficient to solve the problem in general grids. In more details, we prove that three deterministic robots are necessary and sufficient, provided that the size of the grid is n ×m with 3 ≤ n ≤ m or ...
Given an arbitrary partial anonymous grid (a finite grid with possibly missing vertices or edges), t...
International audienceA set of autonomous robots have to collaborate in order to accomplish a common...
International audienceThe paper studies the gathering problem on grid networks. A team of robots pla...
International audienceIn this paper, we investigate the exclusive perpetual exploration of grid shap...
27 pagesWe consider a team of {\em autonomous weak robots} that are endowed with visibility sensors ...
International audienceWe consider swarms of asynchronous oblivious robots evolving into an anonymous...
We propose optimal (w.r.t. the number of robots) solutions for the deterministic terminating explo-r...
Abstract. We consider deterministic terminating exploration of a grid by a team of asynchronous obli...
International audienceIn this paper, we study the exclusive perpetual exploration problem with mobil...
In this paper, we study the exclusive perpetual exploration problem with mobile anonymous and oblivi...
International audienceA set of autonomous robots have to collaborate in order to accomplish a common...
International audienceWe consider the deterministic terminating exploration of an anonymous, unorien...
Given an arbitrary partial anonymous grid (a finite grid with possibly missing vertices or edges), t...
We consider the problem of exploring an anonymous unoriented ring of size $n$ by $k$ identical, obli...
International audienceWe consider the problem of exploring an anonymous unoriented ring of size n by...
Given an arbitrary partial anonymous grid (a finite grid with possibly missing vertices or edges), t...
International audienceA set of autonomous robots have to collaborate in order to accomplish a common...
International audienceThe paper studies the gathering problem on grid networks. A team of robots pla...
International audienceIn this paper, we investigate the exclusive perpetual exploration of grid shap...
27 pagesWe consider a team of {\em autonomous weak robots} that are endowed with visibility sensors ...
International audienceWe consider swarms of asynchronous oblivious robots evolving into an anonymous...
We propose optimal (w.r.t. the number of robots) solutions for the deterministic terminating explo-r...
Abstract. We consider deterministic terminating exploration of a grid by a team of asynchronous obli...
International audienceIn this paper, we study the exclusive perpetual exploration problem with mobil...
In this paper, we study the exclusive perpetual exploration problem with mobile anonymous and oblivi...
International audienceA set of autonomous robots have to collaborate in order to accomplish a common...
International audienceWe consider the deterministic terminating exploration of an anonymous, unorien...
Given an arbitrary partial anonymous grid (a finite grid with possibly missing vertices or edges), t...
We consider the problem of exploring an anonymous unoriented ring of size $n$ by $k$ identical, obli...
International audienceWe consider the problem of exploring an anonymous unoriented ring of size n by...
Given an arbitrary partial anonymous grid (a finite grid with possibly missing vertices or edges), t...
International audienceA set of autonomous robots have to collaborate in order to accomplish a common...
International audienceThe paper studies the gathering problem on grid networks. A team of robots pla...