This paper investigates distributed consensus for density classification in asynchronous random networks with faulty nodes. We compare four different models of faulty behavior under randomized topology. Using computer simulations, we show that (a) faulty nodes' impact depends on their location and (b) faulty nodes with persistent failures inhibit consensus stronger than commonly-used Byzantine faulty nodes with random failures. We also show that (c) randomization by Byzantine faulty nodes can be strongly beneficial for binary consensus and (d) topology randomization can increase robustness towards faulty node behavior
Abstract — In this paper, we study the consensus on scale-free network, which is known as more robus...
Unreliable fault detectors can be used to solve the consensus problem in asyn-chronous distributed s...
We consider the problem of probabilistic reliable communication (PRC) over synchronous networks mod-...
This paper investigates self-organizing binary majority consensus disturbed by faulty nodes with ran...
This article evaluates convergence rates of binary majority consensus algorithms in networks with di...
Decision making by means of distributed consensus algorithms can be used in systems where centralize...
In this article we investigate randomized binary majority consensus in networks with random topologi...
peer-reviewedThis work presents a theoretical and numerical analysis of the conditions under which d...
The aim of this paper is to study communication in networks where nodes fail in a random dependent w...
This work presents a theoretical and numerical analysis of the conditions under which distributed se...
Distributed learning deals with the problem of optimizing aggregate cost functions by networked agen...
We propose a simple model that captures the salient properties of distribution networks, and study t...
We design the weights in consensus algorithms for spatially correlated random topologies. These aris...
Unreliable fault detectors can be used to solve the consensus problem in asynchronous distributed sy...
This work considers the problem of reaching consensus in an unreliable linear consensus network. A s...
Abstract — In this paper, we study the consensus on scale-free network, which is known as more robus...
Unreliable fault detectors can be used to solve the consensus problem in asyn-chronous distributed s...
We consider the problem of probabilistic reliable communication (PRC) over synchronous networks mod-...
This paper investigates self-organizing binary majority consensus disturbed by faulty nodes with ran...
This article evaluates convergence rates of binary majority consensus algorithms in networks with di...
Decision making by means of distributed consensus algorithms can be used in systems where centralize...
In this article we investigate randomized binary majority consensus in networks with random topologi...
peer-reviewedThis work presents a theoretical and numerical analysis of the conditions under which d...
The aim of this paper is to study communication in networks where nodes fail in a random dependent w...
This work presents a theoretical and numerical analysis of the conditions under which distributed se...
Distributed learning deals with the problem of optimizing aggregate cost functions by networked agen...
We propose a simple model that captures the salient properties of distribution networks, and study t...
We design the weights in consensus algorithms for spatially correlated random topologies. These aris...
Unreliable fault detectors can be used to solve the consensus problem in asynchronous distributed sy...
This work considers the problem of reaching consensus in an unreliable linear consensus network. A s...
Abstract — In this paper, we study the consensus on scale-free network, which is known as more robus...
Unreliable fault detectors can be used to solve the consensus problem in asyn-chronous distributed s...
We consider the problem of probabilistic reliable communication (PRC) over synchronous networks mod-...