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Analysis of COVID-19 and cancer data using new half-logistic generated family of distributions

Author

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  • Sadaf Khan
  • Muhammad H. Tahir
  • Farrukh Jamal

Abstract

We focus on a specific sub-model of the proposed family that we call the new half logistic- Fréchet. This sub-model stems from a new generalisation of the half-logistic distribution which we call the new half-logistic-G. The novelty of proposing this new family is that it does not include any additional parameters and instead relies on the baseline parameter. Standard statistical formulas are used to show the forms of the density and failure rate functions, ordinary and incomplete moments with generating functions, and random variate generation. The maximum likelihood estimation procedure is used to estimate the set of parameters. We conduct a simulation analysis to ensure that our calculations are converging with lower mean square error and biases. We use three real-life data sets to equate our model to well-established existing models. The proposed model outperforms the well- established four parameters beta Fréchet and exponentiated generalized Fréchet for some real-life results, with three parameters such as half-logistic Fréchet, exponentiated Fréchet, Zografos–Balakrishnan gamma Fréchet,Topp–Leonne Fréchet, and Marshall–Olkin Fréchet and two-parameter classical Fréchet distribution.

Suggested Citation

  • Sadaf Khan & Muhammad H. Tahir & Farrukh Jamal, 2023. "Analysis of COVID-19 and cancer data using new half-logistic generated family of distributions," Operations Research and Decisions, Wroclaw University of Science and Technology, Faculty of Management, vol. 33(4), pages 71-95.
  • Handle: RePEc:wut:journl:v:33:y:2023:i:4:p:71-95:id:5
    DOI: 10.37190/ord230405
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    References listed on IDEAS

    as
    1. Ayman Alzaatreh & Carl Lee & Felix Famoye, 2013. "A new method for generating families of continuous distributions," METRON, Springer;Sapienza Università di Roma, vol. 71(1), pages 63-79, June.
    2. William T. Shaw & Ian R. C. Buckley, 2009. "The alchemy of probability distributions: beyond Gram-Charlier expansions, and a skew-kurtotic-normal distribution from a rank transmutation map," Papers 0901.0434, arXiv.org.
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