On the Conflation of Poisson and Logarithmic Distributions with Applications

On the Conflation of Poisson and Logarithmic Distributions with Applications

It is frequent for real-life count data to show inflation in lower values; however, most of the well-known count distributions cannot capture such a feature. The present paper introduces a new distribution for modeling inflated count data in small values based on a conflation of distributions approa...

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Bibliographic Details
Main Authors: Abdulhamid A. Alzaid, Anfal A. Alqefari, Najla Qarmalah
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Axioms
Subjects:
Poisson distribution
logarithmic distribution
count distributions
maximum likelihood estimation
statistical properties
simulation
Online Access:https://www.mdpi.com/2075-1680/14/7/518
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Summary:It is frequent for real-life count data to show inflation in lower values; however, most of the well-known count distributions cannot capture such a feature. The present paper introduces a new distribution for modeling inflated count data in small values based on a conflation of distributions approach. The new distribution inherits some properties from Poisson distribution (PD) and logarithmic distribution (LD), making it a powerful modeling tool. It can serve as an alternative to PD, LD, and zero-truncated distributions. The new distribution is worth considering theoretically, as it belongs to the weighted PD family. With zero as a support point, two additional models are suggested for the new distribution. These modifications yield distributions that demonstrate overdispersion models comparable to the negative binomial distribution (NBD) while retaining essential PD properties, making them suitable for accurately representing count data with frequent events of low frequency and high variance. Furthermore, we discuss the superior performance of three new distributions in modeling real count data compared to traditional count distributions such as PD and NBD, as well as other discrete distributions. This paper examines the key statistical properties of the proposed distributions. A comparison of the novel and other distributions in the literature is shown employing real-life data from some domains. All of the computations shown in this study are generated using the R programming language.
ISSN:2075-1680

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