Bayesian inference for wind field retrieval

Dan Cornford; Ian T. Nabney; Christopher K. I. Williams

Bayesian inference for wind field retrieval

Dan Cornford, Ian T. Nabney, Christopher K. I. Williams

Research output: Other contribution

Abstract

In many problems in spatial statistics it is necessary to infer a global problem solution by combining local models. A principled approach to this problem is to develop a global probabilistic model for the relationships between local variables and to use this as the prior in a Bayesian inference procedure. We show how a Gaussian process with hyper-parameters estimated from Numerical Weather Prediction Models yields meteorologically convincing wind fields. We use neural networks to make local estimates of wind vector probabilities. The resulting inference problem cannot be solved analytically, but Markov Chain Monte Carlo methods allow us to retrieve accurate wind fields.

Original language	English
Publisher	Aston University
Publication status	Published - 1 Oct 1998

Keywords

Bayesian inference, surface winds, spatial priors, Gaussian processes

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@misc{f8f8ad781c7740258cf6412f4c7e4144,

title = "Bayesian inference for wind field retrieval",

abstract = "In many problems in spatial statistics it is necessary to infer a global problem solution by combining local models. A principled approach to this problem is to develop a global probabilistic model for the relationships between local variables and to use this as the prior in a Bayesian inference procedure. We show how a Gaussian process with hyper-parameters estimated from Numerical Weather Prediction Models yields meteorologically convincing wind fields. We use neural networks to make local estimates of wind vector probabilities. The resulting inference problem cannot be solved analytically, but Markov Chain Monte Carlo methods allow us to retrieve accurate wind fields.",

keywords = "Bayesian inference, surface winds, spatial priors, Gaussian processes",

author = "Dan Cornford and Nabney, {Ian T.} and Williams, {Christopher K. I.}",

year = "1998",

month = oct,

day = "1",

language = "English",

publisher = "Aston University",

type = "Other",

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TY - GEN

T1 - Bayesian inference for wind field retrieval

AU - Cornford, Dan

AU - Nabney, Ian T.

AU - Williams, Christopher K. I.

PY - 1998/10/1

Y1 - 1998/10/1

N2 - In many problems in spatial statistics it is necessary to infer a global problem solution by combining local models. A principled approach to this problem is to develop a global probabilistic model for the relationships between local variables and to use this as the prior in a Bayesian inference procedure. We show how a Gaussian process with hyper-parameters estimated from Numerical Weather Prediction Models yields meteorologically convincing wind fields. We use neural networks to make local estimates of wind vector probabilities. The resulting inference problem cannot be solved analytically, but Markov Chain Monte Carlo methods allow us to retrieve accurate wind fields.

AB - In many problems in spatial statistics it is necessary to infer a global problem solution by combining local models. A principled approach to this problem is to develop a global probabilistic model for the relationships between local variables and to use this as the prior in a Bayesian inference procedure. We show how a Gaussian process with hyper-parameters estimated from Numerical Weather Prediction Models yields meteorologically convincing wind fields. We use neural networks to make local estimates of wind vector probabilities. The resulting inference problem cannot be solved analytically, but Markov Chain Monte Carlo methods allow us to retrieve accurate wind fields.

KW - Bayesian inference, surface winds, spatial priors, Gaussian processes

M3 - Other contribution

PB - Aston University

ER -

Bayesian inference for wind field retrieval

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