Add to ORKGIn this paper, we study a general class of algorithms designed for networks endowed with a sense of direction describing a spanning forest (e.g., a directed tree or a network where a directed spanning tree is available) whose characterization is a simple (i.e., quasi-syntactic) condition. We show that any algorithm of this class is (1) silent and self-stabilizing under the distributed unfair daemon, and (2) has a stabilization time which is polynomial in moves and asymptotically optimal in rounds. To illustrate the versatility of our method, we review several existing works where our results apply
In this paper, we propose a silent self-stabilizing leader election algorithm for bidirectional con-...
Motivated by applications to sensor networks, as well as to many other areas, this paper studies the...
International audienceIn this paper, we revisit two fundamental results of the self-stabilizing lite...
International audienceWe formalize design patterns, commonly used in self-stabilization, to obtain g...
International audienceWe formalize design patterns, commonly used in self-stabilization, to obtain g...
International audienceWe formalize design patterns, commonly used in self-stabilization, to obtain g...
International audienceWe formalize design patterns, commonly used in self-stabilization, to obtain g...
International audienceWe formalize design patterns, commonly used in self-stabilization, to obtain g...
We propose a general scheme, called Algorithm STlC, to compute spanning-tree-like data structures o...
International audienceIn this paper, we propose a general scheme, called Algorithm $\mathsf{STlC}$, ...
International audienceWe propose a general scheme to compute tree-based data structures on arbitrary...
International audienceSelf-stabilizing algorithms are distributed algorithms supporting transient fa...
A self-stabilizing protocol can eventually recover its intended behavior even when startedfrom an ar...
In this paper, we propose a silent self-stabilizing leader election algorithm for bidirectional con-...
AbstractWe propose a simple self-stabilizing distributed algorithm that maintains an arbitrary spann...
In this paper, we propose a silent self-stabilizing leader election algorithm for bidirectional con-...
Motivated by applications to sensor networks, as well as to many other areas, this paper studies the...
International audienceIn this paper, we revisit two fundamental results of the self-stabilizing lite...
International audienceWe formalize design patterns, commonly used in self-stabilization, to obtain g...
International audienceWe formalize design patterns, commonly used in self-stabilization, to obtain g...
International audienceWe formalize design patterns, commonly used in self-stabilization, to obtain g...
International audienceWe formalize design patterns, commonly used in self-stabilization, to obtain g...
International audienceWe formalize design patterns, commonly used in self-stabilization, to obtain g...
We propose a general scheme, called Algorithm STlC, to compute spanning-tree-like data structures o...
International audienceIn this paper, we propose a general scheme, called Algorithm $\mathsf{STlC}$, ...
International audienceWe propose a general scheme to compute tree-based data structures on arbitrary...
International audienceSelf-stabilizing algorithms are distributed algorithms supporting transient fa...
A self-stabilizing protocol can eventually recover its intended behavior even when startedfrom an ar...
In this paper, we propose a silent self-stabilizing leader election algorithm for bidirectional con-...
AbstractWe propose a simple self-stabilizing distributed algorithm that maintains an arbitrary spann...
In this paper, we propose a silent self-stabilizing leader election algorithm for bidirectional con-...
Motivated by applications to sensor networks, as well as to many other areas, this paper studies the...
International audienceIn this paper, we revisit two fundamental results of the self-stabilizing lite...