On Estimating Mixing Densities in Discrete Exponential Family Models
Zhang, Cun-Hui
Ann. Statist., Tome 23 (1995) no. 6, p. 929-945 / Harvested from Project Euclid
This paper concerns estimating a mixing density function $g$ and its derivatives based on iid observations from $f(x) = \int f(x \mid \theta)g(\theta)d\theta$, where $f(x \mid \theta)$ is a known exponential family of density functions with respect to the counting measure on the set of nonnegative integers. Fourier methods are used to derive kernel estimators, upper bounds for their rate of convergence and lower bounds for the optimal rate of convergence. If $f(x \mid \theta_0) \geq \varepsilon^{x + 1} \forall x$, for some positive numbers $\theta_0$ and $\varepsilon$, then our estimators achieve the optimal rate of convergence $(\log n)^{-\alpha + m}$ for estimating the $m$th derivative of $g$ under a Lipschitz condition of order $\alpha > m$. The optimal rate of convergence is almost achieved when $(x!)^\beta f(x \mid \theta_0) \geq \varepsilon^{x + 1}$. Estimation of the mixing distribution function is also considered.
Publié le : 1995-06-14
Classification:  Mixture,  mixing distribution,  kernel estimator,  rate of convergence,  Fourier transformation,  62G05,  62G20
@article{1176324629,
     author = {Zhang, Cun-Hui},
     title = {On Estimating Mixing Densities in Discrete Exponential Family Models},
     journal = {Ann. Statist.},
     volume = {23},
     number = {6},
     year = {1995},
     pages = { 929-945},
     language = {en},
     url = {http://dml.mathdoc.fr/item/1176324629}
}
Zhang, Cun-Hui. On Estimating Mixing Densities in Discrete Exponential Family Models. Ann. Statist., Tome 23 (1995) no. 6, pp.  929-945. http://gdmltest.u-ga.fr/item/1176324629/