International audienceWe consider the approximate consensus problem in a partially connected network of n nodes where at most f nodes may suffer from Byzantine faults. We study under which conditions this problem can be solved using an iterative algorithm. A Byzantine node can equivocate: it may provide different values to its neighbors. To restrict the possibilities of equivocation, the 3-partial multicast primitive is considered. When a (correct or faulty) node uses this communication primitive, it provides necessarily the same value to the two identified receivers. Based on this communication primitive, a novel condition called f-resilient is proposed and proved to be necessary and sufficient to solve the approximate Byzantine consensus ...
A class of Adversary Robust Consensus protocols is proposed and analyzed. These are inherently nonli...
Solving the consensus problem requires in one way or another that the underlying system satisfies so...
International audienceWe investigate the approximate consensus problem in highly dynamic networks in...
International audienceWe consider the approximate consensus problem in a partially connected network...
Abstract. This paper explores the problem of reaching approximate consensus in synchronous point-to-...
Byzantine consensus is a classical problem in distributed computing. Each node in a synchronous syst...
We consider the problem of approximate consensus in mobile networks containing Byzantine nodes. We a...
We consider the problem of achieving exact consensus with Byzantine faults under a local-broadcast c...
AbstractA consensus protocol enables a system of n asynchronous processes, some of them faulty, to r...
In this work, we consider a generalized fault model that can be used to represent awide range of fai...
Solving the consensus problem requires in one way or another that the underlying system satisfies sy...
We consider Byzantine consensus in a synchronous system where nodes are connected by a network model...
We present an algorithm for synchronous deterministic Byzantine consensus, tolerant to links failure...
Abstract – In a distributed system, it is often necessary for nodes to agree on a particular event o...
International audienceWe study the problems of asymptotic and approximate consensus in which agents ...
A class of Adversary Robust Consensus protocols is proposed and analyzed. These are inherently nonli...
Solving the consensus problem requires in one way or another that the underlying system satisfies so...
International audienceWe investigate the approximate consensus problem in highly dynamic networks in...
International audienceWe consider the approximate consensus problem in a partially connected network...
Abstract. This paper explores the problem of reaching approximate consensus in synchronous point-to-...
Byzantine consensus is a classical problem in distributed computing. Each node in a synchronous syst...
We consider the problem of approximate consensus in mobile networks containing Byzantine nodes. We a...
We consider the problem of achieving exact consensus with Byzantine faults under a local-broadcast c...
AbstractA consensus protocol enables a system of n asynchronous processes, some of them faulty, to r...
In this work, we consider a generalized fault model that can be used to represent awide range of fai...
Solving the consensus problem requires in one way or another that the underlying system satisfies sy...
We consider Byzantine consensus in a synchronous system where nodes are connected by a network model...
We present an algorithm for synchronous deterministic Byzantine consensus, tolerant to links failure...
Abstract – In a distributed system, it is often necessary for nodes to agree on a particular event o...
International audienceWe study the problems of asymptotic and approximate consensus in which agents ...
A class of Adversary Robust Consensus protocols is proposed and analyzed. These are inherently nonli...
Solving the consensus problem requires in one way or another that the underlying system satisfies so...
International audienceWe investigate the approximate consensus problem in highly dynamic networks in...