International audienceWe consider the problem of periodic graph exploration by a finite automaton in which an automaton with a constant number of states has to explore all unknown anonymous graphs of arbitrary size and arbitrary maximum degree. In anonymous graphs, nodes are not labeled but edges are labeled in a local manner (called {\em local orientation}) so that the automaton is able to distinguish them. Precisely, the edges incident to a node $v$ are given port numbers from $1$ to $d_v$, where $d_v$ is the degree of~$v$. Periodic graph exploration means visiting every node infinitely often. We are interested in the length of the period, i.e., the maximum number of edge traversals between two consecutive visits of any node by the automa...
We provide two traversal algorithms. First, we demonstrate that there exists a local orientation for...
We study the computability and complexity of the exploration problem in a class of highly dynamic gr...
The locality of a graph problem is the smallest distance T such that each node can choose its own pa...
International audienceWe consider the problem of periodic graph exploration by a finite automaton in...
AbstractWe consider the problem of periodic graph exploration by a finite automaton in which an auto...
International audienceWe consider the problem of periodic graph exploration by a finite automaton in...
AbstractWe consider the problem of periodic graph exploration in which a mobile entity with constant...
We consider periodic graph traversal in anonymous undirected graphs by a finite state Mealy automato...
AbstractWe consider the problem of periodic exploration of all nodes in undirected graphs by using a...
International audienceWe consider the problem of periodic graph exploration in which a mobile entity...
AbstractA finite automaton, simply referred to as a robot, has to explore a graph whose nodes are un...
International audienceA finite automaton, simply referred to as a {\em robot}, has to explore a grap...
International audienceWe consider the problem of periodic graph exploration in which a mobile entity...
Considering autonomous mobile robots moving on a finite anonymous graph, this paper focuses oil the ...
Considering autonomous mobile robots moving on a finite anonymous graph, this paper focuses on the C...
We provide two traversal algorithms. First, we demonstrate that there exists a local orientation for...
We study the computability and complexity of the exploration problem in a class of highly dynamic gr...
The locality of a graph problem is the smallest distance T such that each node can choose its own pa...
International audienceWe consider the problem of periodic graph exploration by a finite automaton in...
AbstractWe consider the problem of periodic graph exploration by a finite automaton in which an auto...
International audienceWe consider the problem of periodic graph exploration by a finite automaton in...
AbstractWe consider the problem of periodic graph exploration in which a mobile entity with constant...
We consider periodic graph traversal in anonymous undirected graphs by a finite state Mealy automato...
AbstractWe consider the problem of periodic exploration of all nodes in undirected graphs by using a...
International audienceWe consider the problem of periodic graph exploration in which a mobile entity...
AbstractA finite automaton, simply referred to as a robot, has to explore a graph whose nodes are un...
International audienceA finite automaton, simply referred to as a {\em robot}, has to explore a grap...
International audienceWe consider the problem of periodic graph exploration in which a mobile entity...
Considering autonomous mobile robots moving on a finite anonymous graph, this paper focuses oil the ...
Considering autonomous mobile robots moving on a finite anonymous graph, this paper focuses on the C...
We provide two traversal algorithms. First, we demonstrate that there exists a local orientation for...
We study the computability and complexity of the exploration problem in a class of highly dynamic gr...
The locality of a graph problem is the smallest distance T such that each node can choose its own pa...