Constrained estimation of a discrete distribution with probabilistic forecast control
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In this paper we integrate the isotonic regression with Stone's cross-validation-based method to estimate discrete infinitely supported distribution. We prove that the estimator is strongly consistent, derive its rate of convergence for any underlying distribution, and for one-dimensional case we derive Marshal-type inequality for cumulative distribution function of the estimator. Also, we construct the asymptotically correct conservative global confidence band for the estimator. It is shown that, first, the estimator performs good even for small sized data sets, second, the estimator outperforms in the case of non-monotone underlying distribution, and, third, it performs almost as good as Grenander estimator when the true distribution is isotonic. Therefore, the new estimator provides a trade-off between goodness-of-fit, monotonicity and quality of probabilistic forecast. We apply the estimator to the time-to-onset data of visceral leishmaniasis in Brazil collected from 2007 to 2014.
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