On the number of empty cells in the allocation scheme of indistinguishable particles

Alexey Chuprunov, Istvan Fazekas

Abstract


The allocation scheme of \(n\) indistinguishable particles into \(N\) different cells is studied. Let the random variable \(\mu_0(n,K,N)\) be the number of empty cells among the first \(K\) cells. Let \(p=\frac{n}{n+N}\). It is proved that \(\frac{\mu_0(n,K,N)-K(1-p)}{\sqrt{ K p(1-p)}}\) converges in distribution to the Gaussian distribution with expectation zero and variance one, when \(n,K, N\to\infty\) such that \(\frac{n}{N}\to\infty\) and \(\frac{n}{NK}\to 0\). If \(n,K, N\to\infty\) so that \(\frac{n}{N}\to\infty\) and \(\frac{NK}{n}\to \lambda\), where \(0<\lambda<\infty\), then \(\mu_0(n,K,N)\) converges in distribution to the Poisson distribution with parameter \(\lambda\). Two applications of the results are given to mathematical statistics. First, a method  is offered to test the value of \(n\). Then, an analogue of the run-test is suggested with an application in signal processing.

Keywords


Allocation scheme of indistinguishable particles into different cells; Gaussian random variable; Berry-Esseen inequality; limit theorem; local limit theorem

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References


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DOI: http://dx.doi.org/10.17951/a.2020.74.1.15-29
Date of publication: 2020-10-20 20:08:00
Date of submission: 2020-10-10 21:38:34


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