In this paper, we study distributed consensus in synchronous systems subject to both unexpected crash failures and strategic manipulations by rational agents in the system. We adapt the concept of collusion-resistant Nash equilibrium to model protocols that are resilient to both crash failures and strate-gic manipulations of a group of colluding agents. For a system with n distributed agents, we design a deterministic protocol that tolerates 2 colluding agents and a randomized protocol that tolerates n − 1 colluding agents, and both tolerate any number of failures. We also show that if colluders are allowed an extra communication round after each synchronous round, there is no protocol that can tolerate even 2 colluding agents and 1 crash f...
We consider the problem of fault-tolerant agreement in a crash-prone synchronous system. We present ...
Abstract. It is now recognized that the Consensus problem is a fun-damental problem when one has to ...
We provide a novel model to formalize a well-known algorithm, by Chandra and Toueg, that solves Cons...
Blockchain systems need to solve consensus despite the presence of rational users and failures. The ...
The resilient consensus problem over a class of discrete-time linear multiagent systems is addressed...
Is there an equilibrium for distributed consensus when all agents except one collude to steer the de...
This paper presents a deterministic algorithm that solves consensus in asynchronous distributed syst...
Given a model where each processor remains correct for an exponentially distributed random time and...
International audienceWhile consensus is at the heart of many coordination problems in asynchronous ...
A class of Adversary Robust Consensus protocols is proposed and analyzed. These are inherently nonli...
Traditionally, work in distributed computing has divided the agents into "good guys" and "bad guys"....
A class of Adversary Robust Consensus protocols is proposed and analyzed. These are inherently nonli...
Abstract. Reaching agreement is a primitive of distributed com-puting. While this poses no problem i...
We present a new abstraction to replace the t of n assumption used in designing fault-tolerant algo...
In this paper, we consider the problem of designing a resilient cooperative system from the perspect...
We consider the problem of fault-tolerant agreement in a crash-prone synchronous system. We present ...
Abstract. It is now recognized that the Consensus problem is a fun-damental problem when one has to ...
We provide a novel model to formalize a well-known algorithm, by Chandra and Toueg, that solves Cons...
Blockchain systems need to solve consensus despite the presence of rational users and failures. The ...
The resilient consensus problem over a class of discrete-time linear multiagent systems is addressed...
Is there an equilibrium for distributed consensus when all agents except one collude to steer the de...
This paper presents a deterministic algorithm that solves consensus in asynchronous distributed syst...
Given a model where each processor remains correct for an exponentially distributed random time and...
International audienceWhile consensus is at the heart of many coordination problems in asynchronous ...
A class of Adversary Robust Consensus protocols is proposed and analyzed. These are inherently nonli...
Traditionally, work in distributed computing has divided the agents into "good guys" and "bad guys"....
A class of Adversary Robust Consensus protocols is proposed and analyzed. These are inherently nonli...
Abstract. Reaching agreement is a primitive of distributed com-puting. While this poses no problem i...
We present a new abstraction to replace the t of n assumption used in designing fault-tolerant algo...
In this paper, we consider the problem of designing a resilient cooperative system from the perspect...
We consider the problem of fault-tolerant agreement in a crash-prone synchronous system. We present ...
Abstract. It is now recognized that the Consensus problem is a fun-damental problem when one has to ...
We provide a novel model to formalize a well-known algorithm, by Chandra and Toueg, that solves Cons...