论文信息 - Strong consistency of the maximum likelihood estimator for finite mixtures of location-scale distributions when the scale parameters are exponentially small

Strong consistency of the maximum likelihood estimator for finite mixtures of location-scale distributions when the scale parameters are exponentially small

In a finite mixture of location-scale distributions the maximum likelihood estimator does not exist because of the unboundedness of the likelihood function when the scale parameter of some mixture component approaches zero. In order to study the strong consistency of the maximum likelihood estimator, we consider the case where the scale parameters of the component distributions are restricted from below by c?9 where {cn} is a sequence of positive real numbers which tend to zero as the sample size n increases. We prove that under mild regularity conditions the maximum likelihood estimator is strongly consistent if the scale parameters are restricted from below by cn = exp(-nd)9 0

Akimichi Takemura | A. Takemura | Kentaro Tanaka | Kentaro Tanaka

[1] A. Wald. Note on the Consistency of the Maximum Likelihood Estimate , 1949 .

[2] R. Redner. Note on the Consistency of the Maximum Likelihood Estimate for Nonidentifiable Distributions , 1981 .

[3] Geoffrey J. McLachlan,et al. Finite Mixture Models , 2019, Annual Review of Statistics and Its Application.

[4] L. Wasserman,et al. RATES OF CONVERGENCE FOR THE GAUSSIAN MIXTURE SIEVE , 2000 .

[5] B. Everitt,et al. Finite Mixture Distributions , 1981 .

[6] Strong consistency of MLE for finite mixtures of location-scale distributions when the ratios of the scale parameters are exponentially small , 2006, math/0609678.

[7] S. Geman,et al. Nonparametric Maximum Likelihood Estimation by the Method of Sieves , 1982 .

[8] R. Hathaway. A Constrained Formulation of Maximum-Likelihood Estimation for Normal Mixture Distributions , 1985 .

[9] A. Takemura,et al. Strong consistency of MLE for finite uniform mixtures when the scale parameters are exponentially small , 2004, math/0409197.

[10] A. V. D. Vaart,et al. Entropies and rates of convergence for maximum likelihood and Bayes estimation for mixtures of normal densities , 2001 .