Bagdasaryan, A., `` A Note on the $_{2}F_{1}$ Hypergeometric Function'', Journal of Mathematics Research, 2(3): 71-77, (2010).
Genest, C., Rivest, L., ``Statistical inference procedures for bivariate Archimedean copulas'',Journal of the American Statistical Association, 88: 1043-1043, (1993)
Genest C., Molina J., J.Lallena, J., ``De l’impossibilite de construire des lois a marges multidimensionnelles donnees a partir de copules'', Comptes rendus de l’Acadmie des Sciences, 320: 723–726, (1995).
Genest, C., Quessy, J.F., R\'emillard, B., ``Goodness-of-fit procedures for copula models based on the probability integral transform'', Scandinavian Journal of Statistics, 33:337-366, (2006).
Genest C.,, R\'emillard, B., Beaudoin, D., ``Goodness-of-fit tests for copulas: A review and a power study'', Insur Math Econ, 44:199-213, (2008).
Kojadinovic, I., Yan, J., ``Comparison of three semiparametric methods for estimating dependence parameters in copula models'', Insurance: Mathematics and Economics, 47:52-63, (2010).
Bal, H., Najjari, V., ``Archimedean copulas family via hyperbolic generator'' , Gazi university journal of science, 26:195-200, (2013).
Najjari, V., Bacigal, T., Bal, H., ``An archimedean copula family with hyperbolic cotangent generator'', International Journal of Uncertainty Fuzziness and Knowledge-Based Systems.20(5): 761-768, (2014).
Michiels F., Koch, I., De Schepper A., ``How to improve the fit of Archimedean copulas by means of transforms'', Statistical Papers, 53:345-355, (2012).
Michiels F., Koch, I., De Schepper A., ``A New Method for the Construction of Bivariate Archimedean Copulas Based on the $\lambda$ Function'', Communications in Statistics - Theory and Methods, 40: 2670-2679, (2011).
Sklar, A., ``Fonctions de re´partition a´ n dimensions et leurs marges'' , Publications de l’Institut de Statistique de l’Universite´ de Paris, 8:229-231, (1959).
Susam, S.O., Hudaverdi, B.U., ``Testing independence for Archimedean copula based on Bernstein estimate of Kendall distribution function'', Journal of Statistical Computation and Simulation, 88(13): 2589-2599, (2018).
Weib, G., ``Copula parameter estimation by maximum-likelihood and minimum-distance estimators: a simulation study'', Computitional Statistics, 26:31-54, (2011).
A New Family of Archimedean Copula via Trigonometric Generator Function
In this paper, new type of Archimedean copula based on cotangent generator function, and dependence characteristics are investigated. Also, the estimation procedure of the dependence parameter is given. A Monte Carlo study is performed to measure the performance of estimators. To demonstrate the goodness of fit performance of the new family, a real data analysis is performed.
Bagdasaryan, A., `` A Note on the $_{2}F_{1}$ Hypergeometric Function'', Journal of Mathematics Research, 2(3): 71-77, (2010).
Genest, C., Rivest, L., ``Statistical inference procedures for bivariate Archimedean copulas'',Journal of the American Statistical Association, 88: 1043-1043, (1993)
Genest C., Molina J., J.Lallena, J., ``De l’impossibilite de construire des lois a marges multidimensionnelles donnees a partir de copules'', Comptes rendus de l’Acadmie des Sciences, 320: 723–726, (1995).
Genest, C., Quessy, J.F., R\'emillard, B., ``Goodness-of-fit procedures for copula models based on the probability integral transform'', Scandinavian Journal of Statistics, 33:337-366, (2006).
Genest C.,, R\'emillard, B., Beaudoin, D., ``Goodness-of-fit tests for copulas: A review and a power study'', Insur Math Econ, 44:199-213, (2008).
Kojadinovic, I., Yan, J., ``Comparison of three semiparametric methods for estimating dependence parameters in copula models'', Insurance: Mathematics and Economics, 47:52-63, (2010).
Bal, H., Najjari, V., ``Archimedean copulas family via hyperbolic generator'' , Gazi university journal of science, 26:195-200, (2013).
Najjari, V., Bacigal, T., Bal, H., ``An archimedean copula family with hyperbolic cotangent generator'', International Journal of Uncertainty Fuzziness and Knowledge-Based Systems.20(5): 761-768, (2014).
Michiels F., Koch, I., De Schepper A., ``How to improve the fit of Archimedean copulas by means of transforms'', Statistical Papers, 53:345-355, (2012).
Michiels F., Koch, I., De Schepper A., ``A New Method for the Construction of Bivariate Archimedean Copulas Based on the $\lambda$ Function'', Communications in Statistics - Theory and Methods, 40: 2670-2679, (2011).
Sklar, A., ``Fonctions de re´partition a´ n dimensions et leurs marges'' , Publications de l’Institut de Statistique de l’Universite´ de Paris, 8:229-231, (1959).
Susam, S.O., Hudaverdi, B.U., ``Testing independence for Archimedean copula based on Bernstein estimate of Kendall distribution function'', Journal of Statistical Computation and Simulation, 88(13): 2589-2599, (2018).
Weib, G., ``Copula parameter estimation by maximum-likelihood and minimum-distance estimators: a simulation study'', Computitional Statistics, 26:31-54, (2011).
Susam, S. O. (2020). A New Family of Archimedean Copula via Trigonometric Generator Function. Gazi University Journal of Science, 33(3), 806-813. https://doi.org/10.35378/gujs.635032
AMA
Susam SO. A New Family of Archimedean Copula via Trigonometric Generator Function. Gazi University Journal of Science. Eylül 2020;33(3):806-813. doi:10.35378/gujs.635032
Chicago
Susam, Selim Orhun. “A New Family of Archimedean Copula via Trigonometric Generator Function”. Gazi University Journal of Science 33, sy. 3 (Eylül 2020): 806-13. https://doi.org/10.35378/gujs.635032.
EndNote
Susam SO (01 Eylül 2020) A New Family of Archimedean Copula via Trigonometric Generator Function. Gazi University Journal of Science 33 3 806–813.
IEEE
S. O. Susam, “A New Family of Archimedean Copula via Trigonometric Generator Function”, Gazi University Journal of Science, c. 33, sy. 3, ss. 806–813, 2020, doi: 10.35378/gujs.635032.
ISNAD
Susam, Selim Orhun. “A New Family of Archimedean Copula via Trigonometric Generator Function”. Gazi University Journal of Science 33/3 (Eylül 2020), 806-813. https://doi.org/10.35378/gujs.635032.
JAMA
Susam SO. A New Family of Archimedean Copula via Trigonometric Generator Function. Gazi University Journal of Science. 2020;33:806–813.
MLA
Susam, Selim Orhun. “A New Family of Archimedean Copula via Trigonometric Generator Function”. Gazi University Journal of Science, c. 33, sy. 3, 2020, ss. 806-13, doi:10.35378/gujs.635032.
Vancouver
Susam SO. A New Family of Archimedean Copula via Trigonometric Generator Function. Gazi University Journal of Science. 2020;33(3):806-13.