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Maximum entropy Edgeworth estimates of the number of integer points in polytopes

Published 13 Oct 2009 in stat.ME and stat.CO | (0910.2497v2)

Abstract: Abstract: The number of points $x=(x_1 ,x_2 ,...x_n)$ that lie in an integer cube $C$ in $Rn$ and satisfy the constraints $\sum_j h_{ij}(x_j )=s_i ,1\le i\le d$ is approximated by an Edgeworth-corrected Gaussian formula based on the maximum entropy density $p$ on $x \in C$, that satisfies $E\sum_j h_{ij}(x_j )=s_i ,1\le i\le d$. Under $p$, the variables $X_1 ,X_2 ,...X_n $ are independent with densities of exponential form. Letting $S_i$ denote the random variable $\sum_j h_{ij}(X_j )$, conditional on $S=s, X$ is uniformly distributed over the integers in $C$ that satisfy $S=s$. The number of points in $C$ satisfying $S=s$ is $p {S=s}\exp (I(p))$ where $I(p)$ is the entropy of the density $p$. We estimate $p {S=s}$ by $p_Z(s)$, the density at $s$ of the multivariate Gaussian $Z$ with the same first two moments as $S$; and when $d$ is large we use in addition an Edgeworth factor that requires the first four moments of $S$ under $p$. The asymptotic validity of the Edgeworth-corrected estimate is proved and demonstrated for counting contingency tables with given row and column sums as the number of rows and columns approaches infinity, and demonstrated for counting the number of graphs with a given degree sequence, as the number of vertices approaches infinity.

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