Best Paper AwardInternational audienceWe study the number of rounds needed to solve consensus in a synchronous network G where at most t nodes may fail by crashing. This problem has been thoroughly studied when G is a complete graph, but very little is known when G is arbitrary. We define a notion of radius that considers all ways in which t nodes may crash, and present an algorithm that solves consensus in radius rounds. Then we derive a lower bound showing that our algorithm is optimal for vertex-transitive graphs, among oblivious algorithms
In the stabilizing consensus problem, each agent of a networked system has an input value and is rep...
This work presents a theoretical and numerical analysis of the conditions under which distributed se...
In consensus, the n nodes of a distributed system seek to take a consistent decision on some output,...
Best Paper AwardInternational audienceWe study the number of rounds needed to solve consensus in a s...
We study the number of rounds needed to solve consensus in a synchronous network G where at most t n...
Fault-tolerant distributed consensus is a fundamental problem in secure distributed computing. In th...
Abstract—In this paper, we propose a scheme for a resilient distributed consensus problem through a ...
The notion of network robustness reported in some existing literature well characterizes the graph-t...
This article evaluates convergence rates of binary majority consensus algorithms in networks with di...
International audienceWe investigate the approximate consensus problem in highly dynamic networks in...
We consider a consensus algorithm in which every nodein a sequence of undirected, B-connected graphs...
Decision making by means of distributed consensus algorithms can be used in systems where centralize...
In this paper, we develop distributed algorithms for achieving resilient consensus via the maximum v...
An indulgent algorithm is a distributed algorithm that tolerates asynchronous periods of the network...
This paper investigates self-organizing binary majority consensus disturbed by faulty nodes with ran...
In the stabilizing consensus problem, each agent of a networked system has an input value and is rep...
This work presents a theoretical and numerical analysis of the conditions under which distributed se...
In consensus, the n nodes of a distributed system seek to take a consistent decision on some output,...
Best Paper AwardInternational audienceWe study the number of rounds needed to solve consensus in a s...
We study the number of rounds needed to solve consensus in a synchronous network G where at most t n...
Fault-tolerant distributed consensus is a fundamental problem in secure distributed computing. In th...
Abstract—In this paper, we propose a scheme for a resilient distributed consensus problem through a ...
The notion of network robustness reported in some existing literature well characterizes the graph-t...
This article evaluates convergence rates of binary majority consensus algorithms in networks with di...
International audienceWe investigate the approximate consensus problem in highly dynamic networks in...
We consider a consensus algorithm in which every nodein a sequence of undirected, B-connected graphs...
Decision making by means of distributed consensus algorithms can be used in systems where centralize...
In this paper, we develop distributed algorithms for achieving resilient consensus via the maximum v...
An indulgent algorithm is a distributed algorithm that tolerates asynchronous periods of the network...
This paper investigates self-organizing binary majority consensus disturbed by faulty nodes with ran...
In the stabilizing consensus problem, each agent of a networked system has an input value and is rep...
This work presents a theoretical and numerical analysis of the conditions under which distributed se...
In consensus, the n nodes of a distributed system seek to take a consistent decision on some output,...