Add to ORKGInternational audienceWe present a simple and flexible method to prove consistency of semidefinite optimization problems on random graphs. The method is based on Grothendieck's inequality. Unlike the previous uses of this inequality that lead to constant relative accuracy, we achieve any given relative accuracy by leveraging randomness. We illustrate the method with the problem of community detection in sparse networks, those with bounded average degrees. We demonstrate that even in this regime, various natural semidefinite programs can be used to recover the community structure up to an arbitrarily small fraction of misclas-sified vertices. The method is general; it can be applied to a variety of stochastic models of networks and semidefin...
We consider the problem of detecting a tight community in a sparse random network. This is formalize...
Random matrix theory has played an important role in recent work on statistical network analysis. In...
This paper studies how close random graphs are typically to their expectations. We interpret this qu...
Abstract. We present a simple and flexible method to prove consis-tency of semidefinite optimization...
We present a simple and flexible method to prove consistency of semidefinite optimization problems o...
Given an underlying graph, we consider the following dynamics: Initially, each node locally chooses ...
Given an underlying graph, we consider the following dynamics: Initially, each node locally chooses ...
Given an underlying graph, we consider the following dynamics: Initially, each node locally chooses ...
Today witnesses an explosion of data coming from various types of networks such as online social net...
Abstract. We study random graphs with possibly different edge prob-abilities in the challenging spar...
The problem of detecting communities in a graph is maybe one the most studied inference problems, gi...
The stochastic block model is one of the oldest and most ubiquitous models for studying clustering a...
We study random graphs with possibly different edge probabilities in the challenging sparse regime o...
Inference problems on graphs arise naturally when trying to make sense of network data. Oftentimes, ...
We consider the problem of detecting a tight community in a sparse random network. This is formalize...
We consider the problem of detecting a tight community in a sparse random network. This is formalize...
Random matrix theory has played an important role in recent work on statistical network analysis. In...
This paper studies how close random graphs are typically to their expectations. We interpret this qu...
Abstract. We present a simple and flexible method to prove consis-tency of semidefinite optimization...
We present a simple and flexible method to prove consistency of semidefinite optimization problems o...
Given an underlying graph, we consider the following dynamics: Initially, each node locally chooses ...
Given an underlying graph, we consider the following dynamics: Initially, each node locally chooses ...
Given an underlying graph, we consider the following dynamics: Initially, each node locally chooses ...
Today witnesses an explosion of data coming from various types of networks such as online social net...
Abstract. We study random graphs with possibly different edge prob-abilities in the challenging spar...
The problem of detecting communities in a graph is maybe one the most studied inference problems, gi...
The stochastic block model is one of the oldest and most ubiquitous models for studying clustering a...
We study random graphs with possibly different edge probabilities in the challenging sparse regime o...
Inference problems on graphs arise naturally when trying to make sense of network data. Oftentimes, ...
We consider the problem of detecting a tight community in a sparse random network. This is formalize...
We consider the problem of detecting a tight community in a sparse random network. This is formalize...
Random matrix theory has played an important role in recent work on statistical network analysis. In...
This paper studies how close random graphs are typically to their expectations. We interpret this qu...