The Generalized Odd Maxwell-Kumaraswamy Distribution: Its Properties and Applications

Ishaq, Aliyu Ismail; Panitanarak, Uthumporn; Abiodun, Alfred Adewole; Suleiman, Ahmad Abubakar; Daud, Hanita

doi:10.37256/cm.5120242888

Contemp. Math.

2024

DOI: 10.37256/cm.5120242888

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The Generalized Odd Maxwell-Kumaraswamy Distribution: Its Properties and Applications

Aliyu Ismail Ishaq,

Uthumporn Panitanarak,

Alfred Adewole Abiodun

et al.

Abstract: This study introduces a novel family of continuous probability distributions using Alzaatreh‘s technique to explore the Generalized Odd Maxwell-Generated (GOM-G) distribution family. Within the Generalized Odd Maxwell family, the GOM-Kumaraswamy distribution is presented as extended form of the Kumaraswamy distribution. The investigation thoroughly examines the cumulative distribution function, probability density function, hazard, and survival functions, as well as mixture representations of the Generalized O… Show more

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2024

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Cited by 3 publications

References 43 publications

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A novel extended Kumaraswamy distribution and its application to COVID‐19 data

Suleiman,

Daud,

Ishaq

et al. 2024

Engineering Reports

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In the field of biomedical research, data characteristics often exhibit significant variability, challenging the applicability of classical probability distributions for biomedical data modeling. In this research, we introduce a novel four‐parameter distribution called the odd beta prime Kumaraswamy (OBPK) distribution, derived from the odd beta prime generalized family of distributions and the Kumaraswamy distribution. This distribution exhibits greater flexibility compared with the traditional Kumaraswamy distribution. Importantly, the OBPK distribution offers symmetrical, right‐skewed, left‐skewed, bathtub, N‐shaped, J‐shaped, and reversed J‐shaped densities, as well as varied hazard functions, including increasing, decreasing, bathtub, increasing‐decreasing, upside‐down bathtub, and N‐shaped forms. These curvature patterns make it particularly useful for modeling biomedical data. We derive some basic properties of the OBPK distribution. Parameters are estimated using the maximum likelihood approach, and the performance of various estimators is assessed via Monte Carlo simulations. Finally, four applications to real data on COVID‐19 mortality rates from different countries are evaluated to demonstrate the importance of the OBPK model over other extended versions of the Kumaraswamy models. The empirical findings suggest that the OBPK model outperforms other extended versions of the Kumaraswamy models in these applications.

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A novel extended Kumaraswamy distribution and its application to COVID‐19 data

Suleiman,

Daud,

Ishaq

et al. 2024

Engineering Reports

View full text Add to dashboard Cite

show abstract

A new extension of the Gumbel distribution with biomedical data analysis

Daud,

Suleiman,

Ishaq

et al. 2024

Journal of Radiation Research and Applied Sciences

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A new Weibull distribution for modeling complex biomedical data

Suleiman,

Daud,

Ishaq

et al. 2024

Journal of Radiation Research and Applied Sciences

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The Generalized Odd Maxwell-Kumaraswamy Distribution: Its Properties and Applications

Cited by 3 publications

References 43 publications

A novel extended Kumaraswamy distribution and its application to COVID‐19 data

A novel extended Kumaraswamy distribution and its application to COVID‐19 data

A new extension of the Gumbel distribution with biomedical data analysis

A new Weibull distribution for modeling complex biomedical data

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