We consider distributed estimation of the inverse covariance matrix, also called the concentration or precision matrix, in Gaussian graphical models. Traditional centralized estimation often requires global inference of the covariance matrix, which can be computationally intensive in large dimensions. Approximate inference based on message-passing algorithms, on the other hand, can lead to unsta-ble and biased estimation in loopy graphical models. In this paper, we propose a general framework for distributed estimation based on a maximum marginal likelihood (MML) approach. This approach computes local parameter estimates by maximizing marginal likelihoods defined with respect to data collected from local neighborhoods. Due to the non-convex...
We propose penalized likelihood methods for estimating the concentration matrix in the Gaussian grap...
We introduce a distributionally robust maximum likelihood estimation model with a Wasserstein ambigu...
<div><p>In this article, we propose localized implementations of the iterative proportional scaling ...
We consider distributed estimation of the inverse co-variance matrix, also called the concentration ...
We consider distributed estimation of the inverse covariance matrix, also called the concentration m...
Abstract—We consider distributed estimation of the inverse covariance matrix in Gaussian graphical m...
This paper presents foundational theoretical results on distributed parameter estimation for undirec...
Belief propagation (BP) is an efficient algorithm for calculating approximate marginal probability d...
We propose penalized likelihood methods for estimating the concentration matrix in the Gaussian grap...
We study parameter estimation in linear Gaussian covariance models, which are p-dimensional Gaussian...
We study parameter estimation in linear Gaussian covariance models, which are p-dimensional Gaussian...
When inferring parameters from a Gaussian-distributed data set by computing a likelihood, a covarian...
A Gaussian graphical model is a graph representation of conditional independence relations among Gau...
We consider a problem encountered when trying to estimate a Gaussian random field using a distribute...
We study maximum likelihood estimation in Gaussian graphical models from a geometric point of view. ...
We propose penalized likelihood methods for estimating the concentration matrix in the Gaussian grap...
We introduce a distributionally robust maximum likelihood estimation model with a Wasserstein ambigu...
<div><p>In this article, we propose localized implementations of the iterative proportional scaling ...
We consider distributed estimation of the inverse co-variance matrix, also called the concentration ...
We consider distributed estimation of the inverse covariance matrix, also called the concentration m...
Abstract—We consider distributed estimation of the inverse covariance matrix in Gaussian graphical m...
This paper presents foundational theoretical results on distributed parameter estimation for undirec...
Belief propagation (BP) is an efficient algorithm for calculating approximate marginal probability d...
We propose penalized likelihood methods for estimating the concentration matrix in the Gaussian grap...
We study parameter estimation in linear Gaussian covariance models, which are p-dimensional Gaussian...
We study parameter estimation in linear Gaussian covariance models, which are p-dimensional Gaussian...
When inferring parameters from a Gaussian-distributed data set by computing a likelihood, a covarian...
A Gaussian graphical model is a graph representation of conditional independence relations among Gau...
We consider a problem encountered when trying to estimate a Gaussian random field using a distribute...
We study maximum likelihood estimation in Gaussian graphical models from a geometric point of view. ...
We propose penalized likelihood methods for estimating the concentration matrix in the Gaussian grap...
We introduce a distributionally robust maximum likelihood estimation model with a Wasserstein ambigu...
<div><p>In this article, we propose localized implementations of the iterative proportional scaling ...