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On bivariate Teissier model using Copula: dependence properties, and case studies

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  • Shikhar Tyagi

    (Christ Deemed to be University)

Abstract

To precisely represent bivariate continuous variables, this work presents an innovative approach that emphasizes the interdependencies between the variables. The technique is based on the Teissier model and the Farlie-Gumbel-Morgenstern (FGM) copula and seeks to create a complete framework that captures every aspect of associated occurrences. The work addresses data variability by utilizing the oscillatory properties of the FGM copula and the flexibility of the Teissier model. Both theoretical formulation and empirical realization are included in the evolution, which explains the joint cumulative distribution function $$\mathfrak {F}(z_{1}, z_{2})$$ F ( z 1 , z 2 ) , the marginals $$\mathfrak {F}(z_{1})$$ F ( z 1 ) and $$\mathfrak {F} (z_{2})$$ F ( z 2 ) , and the probability density function (PDF) $$\mathfrak {f}(z_{1},z_{2})$$ f ( z 1 , z 2 ) . The novel modeling of bivariate lifetime phenomena that combines the adaptive properties of the Teissier model with the oscillatory characteristics of the FGM copula represents the contribution. The study emphasizes the effectiveness of the strategy in controlling interdependencies while advancing academic knowledge and practical application in bivariate modelling. In parameter estimation, maximum likelihood and Bayesian paradigms are employed through the use of the Markov Chain Monte Carlo (MCMC). Theorized models are examined closely using rigorous model comparison techniques. The relevance of modern model paradigms is demonstrated by empirical findings from the Burr dataset.

Suggested Citation

  • Shikhar Tyagi, 2024. "On bivariate Teissier model using Copula: dependence properties, and case studies," International Journal of System Assurance Engineering and Management, Springer;The Society for Reliability, Engineering Quality and Operations Management (SREQOM),India, and Division of Operation and Maintenance, Lulea University of Technology, Sweden, vol. 15(6), pages 2483-2499, June.
  • Handle: RePEc:spr:ijsaem:v:15:y:2024:i:6:d:10.1007_s13198-024-02266-2
    DOI: 10.1007/s13198-024-02266-2
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    References listed on IDEAS

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    1. A. K. Pathak & P. Vellaisamy, 2016. "Various measures of dependence of a new asymmetric generalized Farlie–Gumbel–Morgenstern copulas," Communications in Statistics - Theory and Methods, Taylor & Francis Journals, vol. 45(18), pages 5299-5317, September.
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    6. Ehab M. Almetwally & Mohamed A. H. Sabry & Randa Alharbi & Dalia Alnagar & Sh. A. M. Mubarak & E. H. Hafez & Ahmed Mostafa Khalil, 2021. "Marshall–Olkin Alpha Power Weibull Distribution: Different Methods of Estimation Based on Type-I and Type-II Censoring," Complexity, Hindawi, vol. 2021, pages 1-18, March.
    7. N. Unnikrishnan Nair & P. G. Sankaran & Preethi John, 2018. "Modelling bivariate lifetime data using copula," METRON, Springer;Sapienza Università di Roma, vol. 76(2), pages 133-153, August.
    8. Sarhan, Ammar M. & Hamilton, David C. & Smith, Bruce & Kundu, Debasis, 2011. "The bivariate generalized linear failure rate distribution and its multivariate extension," Computational Statistics & Data Analysis, Elsevier, vol. 55(1), pages 644-654, January.
    9. Ranadeera G. M. Samanthi & Jungsywan Sepanski, 2019. "A bivariate extension of the beta generated distribution derived from copulas," Communications in Statistics - Theory and Methods, Taylor & Francis Journals, vol. 48(5), pages 1043-1059, March.
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