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Analytically computing or estimating the differential entropy of a Gaussian mixture is a difficult problem. Previous work has focused on providing upper bounds or numerical approximations, without closed-form expressions.
The authors consider a special case where the Gaussian mixture has equal weights and a shared covariance matrix, but the component means are i.i.d. Gaussian vectors.
They derive a series expansion in the ratio of the variances of the component means and the shared covariance matrix, obtaining results up to the second order.
The authors show that their method avoids the need for splitting Gaussian components, which was required in previous approximation techniques. This allows them to quantify the order of magnitude for the error in their expansion.
The authors provide two approaches to obtain the series expansion - a brute-force method and a determinant-based method. Both approaches yield consistent results up to the first two orders in the expansion parameter.
The authors discuss the advantages of their analytical estimation method compared to previous work, including providing an explicit expression for the average entropy rather than just bounds, and the ability to quantify the error in the approximation.
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