English

Inference with Multivariate Heavy-Tails in Linear Models

Machine Learning 2011-03-22 v4 Information Theory math.IT

Abstract

Heavy-tailed distributions naturally occur in many real life problems. Unfortunately, it is typically not possible to compute inference in closed-form in graphical models which involve such heavy-tailed distributions. In this work, we propose a novel simple linear graphical model for independent latent random variables, called linear characteristic model (LCM), defined in the characteristic function domain. Using stable distributions, a heavy-tailed family of distributions which is a generalization of Cauchy, L\'evy and Gaussian distributions, we show for the first time, how to compute both exact and approximate inference in such a linear multivariate graphical model. LCMs are not limited to stable distributions, in fact LCMs are always defined for any random variables (discrete, continuous or a mixture of both). We provide a realistic problem from the field of computer networks to demonstrate the applicability of our construction. Other potential application is iterative decoding of linear channels with non-Gaussian noise.

Keywords

Cite

@article{arxiv.1008.5325,
  title  = {Inference with Multivariate Heavy-Tails in Linear Models},
  author = {Danny Bickson and Carlos Guestrin},
  journal= {arXiv preprint arXiv:1008.5325},
  year   = {2011}
}

Comments

In Neural Information Processing System (NIPS) 2010, Dec. 2010, Vancouver, Canada

R2 v1 2026-06-21T16:07:31.455Z