English

On efficient prediction and predictive density estimation for spherically symmetric models

Statistics Theory 2018-07-13 v1 Statistics Theory

Abstract

Let X,U,YX,U,Y be spherically symmetric distributed having density ηd+k/2f(η(xθ2+u2+ycθ2)),\eta^{d +k/2} \, f\left(\eta(\|x-\theta|^2+ \|u\|^2 + \|y-c\theta\|^2 ) \right)\,, with unknown parameters θRd\theta \in \mathbb{R}^d and η>0\eta>0, and with known density ff and constant c>0c >0. Based on observing X=x,U=uX=x,U=u, we consider the problem of obtaining a predictive density q^(y;x,u)\hat{q}(y;x,u) for YY as measured by the expected Kullback-Leibler loss. A benchmark procedure is the minimum risk equivariant density q^mre\hat{q}_{mre}, which is Generalized Bayes with respect to the prior π(θ,η)=η1\pi(\theta, \eta) = \eta^{-1}. For d3d \geq 3, we obtain improvements on q^mre\hat{q}_{mre}, and further show that the dominance holds simultaneously for all ff subject to finite moments and finite risk conditions. We also obtain that the Bayes predictive density with respect to the harmonic prior πh(θ,η)=η1θ2d\pi_h(\theta, \eta) =\eta^{-1} \|\theta\|^{2-d} dominates q^mre\hat{q}_{mre} simultaneously for all scale mixture of normals ff.

Keywords

Cite

@article{arxiv.1807.04711,
  title  = {On efficient prediction and predictive density estimation for spherically symmetric models},
  author = {Dominique Fourdrinier and Éric Marchand and William E. Strawderman},
  journal= {arXiv preprint arXiv:1807.04711},
  year   = {2018}
}
R2 v1 2026-06-23T02:59:17.479Z