Development and Applications of the Type II Half-Logistic Inverse Weibull Distribution
DOI:
https://doi.org/10.4314/9zk6e341Keywords:
Type II Half-Logistic , Exponentiated-G, Inverse Weibull distribution, Hazard function, Reliability function, Maximum likelihood, Order StatisticsAbstract
A variety of distribution classes have emerged by expanding or generalizing well-known continuous distributions to enhance their flexibility and adaptability across various fields. One such distribution is the Inverse Weibull (IW) distribution, introduced by Keller and Kanath in 1982, which has proven effective in modelling failure characteristics. Over the years, several extensions of the IW distribution have been developed, including the Beta Inverse Weibull, Kumaraswamy-Inverse Weibull, and many others. This paper introduces a novel extension called the Type II Half-Logistic Inverse Weibull (TIIHLEtIW) distribution, derived from the Type II Half-Logistic Exponentiated-G (TIIHLEt-G) family proposed by Bello et al. in 2021. The TIIHLEtIW distribution incorporates two additional shape parameters, enhancing its flexibility. We provide the cumulative distribution function (cdf), probability density function (pdf), and key statistical properties, including moments, moment-generating function, reliability function, hazard function, and quantile function. Maximum likelihood estimation (MLE) is employed for parameter estimation, and a simulation study evaluates the performance of the MLEs. Finally, the applicability and superiority of the TIIHLEtIW distribution are demonstrated through a comparative study using two real datasets, showcasing its improved fit over several established distributions.
Downloads
Published
Issue
Section
Similar Articles
- Attah Chuks Emmanuel, Gloria Chika Udeokpote, Ethanol Extract of Vernonia amygdalina Leaf as a Green Corrosion Inhibitor for Carbon Steel in Solution of HCl , Communication In Physical Sciences: Vol. 10 No. 3: VOLUME 10 ISSUE 3 (2023-2024)
- Oluwafemi Samson Afolabi , Load-Bearing Capacity Analysis and Optimization of Beams, Slabs, and Columns , Communication In Physical Sciences: Vol. 6 No. 2 (2020): Communication in Physical Sciences
- Ifeoma Chikamma Okereke , Peace Nwagor, Chidinma Olunkwa, Amadi Innocent Uchenna, Analytical Solution on Stochastic Systems to Assess the Wealth Function of Periodic Corporate Investors , Communication In Physical Sciences: Vol. 12 No. 4 (2025): VOLUME1 2 ISSUE 4
- Emmanuel Acquah, Identification of Internal, Corona, and Surface Discharges in Electrical Insulation Through their Characteristics: A Case Study in Norfolk , Communication In Physical Sciences: Vol. 13 No. 2 (2026): VOLUME 13 ISSUE 2
- Rakiya Haruna, Muneer Aziz Saleh, 222Rn activity concentration in outdoor air of Johor, Malaysia , Communication In Physical Sciences: Vol. 8 No. 2 (2022): VOLUME 8 ISSUE 2
- Oyebola Olusola Olurotimi, Belewu Fatai Damilola, Balogun Rilwan Oluwanishola,, Adegboyega Anthony Babajide, Oyebode Daniel Oluwatimilehin, Exploring the Thermoelectric Potential of Trigonal MgS2: A Computational Investigation Using DFT and Boltzmann Transport Theory , Communication In Physical Sciences: Vol. 11 No. 2 (2024): VOLUME 11 ISSUE 2
- K. G. Ta'awu, M. C. Ekanem, A. Mairo, P. G. Udofia, Sensory and market attributes of wheat-Musa. spp-soybean (WPS) flour composite bread , Communication In Physical Sciences: Vol. 5 No. 2 (2020): VOLUME 5 ISSUE 2
- Mohammed Hassan Ramat, Yahaya Zakari, Mohammed Usman, Isah Muhammad, Jamilu Yunusa Falgore, Hussaini Garba Dikko, The Effect of Exchange Rate on Gross Domestic Product (GDP) on the Nigerian Economy using ARDL-ECM approach , Communication In Physical Sciences: Vol. 8 No. 2 (2022): VOLUME 8 ISSUE 2
- Umar Ahmad Isyaku, Nura Mohammed, Aminu Sabo Muhammad, Abdulrasheed Luqman, Body Mass Index and its Influence on HIV Positive Patients: A Case Study of Aminu Kano Teaching Hospital , Communication In Physical Sciences: Vol. 9 No. 4 (2023): VOLUME 9 ISSUE 4
- Abidemi Emmanuel Adeniji, Ayotunde Abel Ajayi, Abiodun Isiaka Egunjobi, Kayode Stephen Ojo, Difference Synchronization of Fractional Order Chaotic Systems Via Active Control , Communication In Physical Sciences: Vol. 11 No. 3 (2024): VOLUME 11 ISSUE 3
You may also start an advanced similarity search for this article.