English

Infinite-dimensional statistical manifolds based on a balanced chart

Probability 2016-02-10 v2 Statistics Theory Statistics Theory

Abstract

We develop a family of infinite-dimensional Banach manifolds of measures on an abstract measurable space, employing charts that are "balanced" between the density and log-density functions. The manifolds, (M~λ,λ[2,))(\tilde{M}_{\lambda},\lambda\in [2,\infty)), retain many of the features of finite-dimensional information geometry; in particular, the α\alpha-divergences are of class Cλ1C^{\lceil\lambda\rceil-1}, enabling the definition of the Fisher metric and α\alpha-derivatives of particular classes of vector fields. Manifolds of probability measures, (Mλ,λ[2,))(M_{\lambda},\lambda\in [2,\infty)), based on centred versions of the charts are shown to be Cλ1C^{\lceil\lambda \rceil-1}-embedded submanifolds of the M~λ\tilde{M}_{\lambda}. The Fisher metric is a pseudo-Riemannian metric on M~λ\tilde{M}_{\lambda}. However, when restricted to finite-dimensional embedded submanifolds it becomes a Riemannian metric, allowing the full development of the geometry of α\alpha-covariant derivatives. M~λ\tilde{M}_{\lambda} and MλM_{\lambda} provide natural settings for the study and comparison of approximations to posterior distributions in problems of Bayesian estimation.

Keywords

Cite

@article{arxiv.1308.3602,
  title  = {Infinite-dimensional statistical manifolds based on a balanced chart},
  author = {Nigel J. Newton},
  journal= {arXiv preprint arXiv:1308.3602},
  year   = {2016}
}

Comments

Published at http://dx.doi.org/10.3150/14-BEJ673 in the Bernoulli (http://isi.cbs.nl/bernoulli/) by the International Statistical Institute/Bernoulli Society (http://isi.cbs.nl/BS/bshome.htm)

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