Erwan Hillion, Oliver Johnson
Published 2015-03-05Version 1
We prove the Shepp--Olkin conjecture, which states that the entropy of the sum of independent Bernoulli random variables is concave in the parameters of the individual random variables. Our proof is a refinement of an argument previously presented by the same authors, which resolved the conjecture in the monotonic case (where all the parameters are simultaneously increasing). In fact, we show that the monotonic case is the worst case, using a careful analysis of concavity properties of the derivatives of the probability mass function. We propose a generalization of Shepp and Olkin's original conjecture, to consider Renyi and Tsallis entropies.
Alternative combinatorial sum for the probability mass function of the Poisson distribution of order $k$
Analytical proofs for the properties of the probability mass function of the Poisson distribution of order $k$
Structure of the probability mass function of the Poisson distribution of order $k$
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