https://orcid.org/0000-0001-5289-1499
References
- Bodnar T, Mazur S, Podgórski K. Singular inverse Wishart distribution and its application to portfolio theory. J Multivar Anal. 2016;143:314–326.
- Schuurman NK, Grasman RPPP, Hamaker EL. A comparison of inverse-Wishart prior specifications for covariance matrices in multilevel autoregressive models. Multivariate Behav Res. 2016;51:185–206.
- Samek W, Nakajima S, Kawanabe M, et al. On robust parameter estimation in brain-computer interfacing. J Neural Eng. 2017;14:061001.
- Kuismin M, Sillanpää M. Use of Wishart prior and simple extensions for sparse precision matrix estimation. PLoS ONE. 2016;11:e0148171.
- Wang H, Li SZ. Efficient gaussian graphical model determination under G-Wishart prior distributions. Electron J Stat. 2012;6:168–198.
- Nielsen SF, Sporring J. Maximum a posteriori covariance estimation using a power inverse Wishart prior; 2012.
- Adhikari S. Wishart random matrices in probabilistic structural mechanics. J Eng Mech. 2008;134:1029–1044.
- Conradsen K, Nielsen AA, Schou J, et al. A test statistic in the complex Wishart distribution and its application to change detection in polarimetric SAR data. IEEE Trans Geosci Remote Sens. 2003;41:4–19.
- Nie X, Qiao H, Zhang B. A variational model for PolSAR data speckle reduction based on the Wishart distribution. IEEE Trans Image Process. 2015;24:1209–1222.
- Erten E, Reigber A, Schneider RZ, et al. A joint test statistic considering complex Wishart distribution: characterization of temporal polarimetric data. In: Conference: International Society for Photogrammetry and Remote Sensing (ISPRS), Beijing, China; 2008. p. 129–132.
- Deng X, López-Martínez C, Chen J, et al. Statistical modeling of polarimetric SAR data: a survey and challenges. Remote Sens (Basel). 2017;9.
- Hassairi A, Lajmi S. Riesz exponential families on symmetric cones. J Theor Probab. 2001;14:927–948.
- Kessentini S, Tounsi M, Zine R. The Riesz probability distribution: generation and EM algorithm. Comm Statist Simul Comput. 2020;49:2114–2133.
- Paul D, Aue A. Random matrix theory in statistics: a review. J Stat Plan Inference. 2014;150:1–29.
- Louzada F, Ramos PL. Efficient closed-form maximum a posteriori estimators for the gamma distribution. J Stat Comput Simul. 2018;88:1134–1146.
- Beckman RJ, Tiet jen GL. Maximum likelihood estimation for the beta distribution. J Stat Comput Simul. 1978;7:253–258.
- Schwartz J, Godwin RT, Giles DE. Improved maximum likelihood estimation of the shape parameter in the Nakagami distribution. J Stat Comput Simul. 2013;83:434–445.
- Dibal NP, Bakari HR, Yahaya AM. Estimating the parameters in the two-parameter Weibull model using simulation study and real-life data. J Math. 2016;12:38–42.
- Naf J, Paolella MS, Polak P. Heterogeneous tail generalized COMFORT modeling via Cholesky decomposition. J Multivar Anal. 2019;172:84–106.
- Faraut J, Korányi A. Analysis on symmetric cones. London and New York: Oxford University Press; 1994.
- Hassairi A, Lajmi S, Zine R. Riesz inverse Gaussian distributions. J Stat Plan Inference. 2007;137:2024–2033.
- Kammoun K, Louati M, Masmoudi A. Maximum likelihood estimator of the scale parameter for the Riesz distribution. Statist Probab Lett. 2017;126:127–131.
- Lajmi S. Les familles exponnetielles de Riesz sur les cônes symétriques [dissertation]. Tunis University; 1998.
- Louati M. Mixture of the Riesz distribution with respect to the generalized multivariate gamma distribution. J Korean Statist Soc. 2013;42:83–93.
- Hassairi A, Lajmi S, Zine R. Beta-Riesz distributions on symmetric cones. J Stat Plan Inference. 2005;133:387–404.
- Hassairi A, Lajmi S, Zine R. Some new properties of the Riesz probability distribution. Math Methods Appl Sci. 2017;40:5946–5958.
- Seshadri V, Wesolowski J. More on connections between Wishart and matrix GIG distributions. Metrika. 2008;68:219–232.