@article{montufar2016hierarchical,
title = "Hierarchical models as marginals of hierarchical models ",
journal = "International Journal of Approximate Reasoning ",
volume = "",
number = "",
pages = " - ",
year = "2016",
note = "",
issn = "0888-613X",
doi = "http://dx.doi.org/10.1016/j.ijar.2016.09.003",
url = "http://www.sciencedirect.com/science/article/pii/S0888613X16301414",
author = "Guido Mont\'ufar and Johannes Rauh",
keywords = "Hierarchical model",
keywords = "Restricted Boltzmann machine",
keywords = "Soft-plus unit",
keywords = "Rectified linear unit",
keywords = "Interaction model",
keywords = "Graphical model ",
abstract = "Abstract We investigate the representation of hierarchical models in terms of marginals of other hierarchical models with smaller interactions. We focus on binary variables and marginals of pairwise interaction models whose hidden variables are conditionally independent given the visible variables. In this case the problem is equivalent to the representation of linear subspaces of polynomials by feedforward neural networks with soft-plus computational units. We show that every hidden variable can freely model multiple interactions among the visible variables, which allows us to generalize and improve previous results. In particular, we show that a restricted Boltzmann machine with [ 2 ( log ( v ) + 1 ) / ( v + 1 ) ] 2^v - 1 hidden binary variables can approximate every distribution of v visible binary variables arbitrarily well, which improves the previous bound 2^{v - 1} - 1 . "
}