Atmospheric thermodynamic data are gathered by high technology remote instruments such as radiosondes, giving rise to profiles that are usually modelled as functions depending only on height. The radiosonde balloons, however, drift away in the atmosphere resulting in not necessarily vertical but three-dimensional trajectories. To model this kind of functional data, we introduce a “point based” formulation of an heteroskedastic functional regression model that includes a trivariate smooth function and results to be an extension of a previously introduced unidimensional model. Functional coefficients of both the conditional mean and variance are estimated by reformulating the model as a standard generalized additive model and subsequently as a mixed model. This reformulation leads to a double mixed model whose parameters are fitted by using an iterative algorithm that allows to adjust for heteroskedasticity. The proposed modelling approach is applied to describe collocation mismatch when we deal with couples of balloons launched at two different locations. In particular, we model collocation error of atmospheric pressure in terms of meteorological covariates and space and time mismatch. Results show that model fitting is improved once heteroskedasticity is taken into account.

(2015). Modelling collocation uncertainty of 3D atmospheric profiles [journal article - articolo]. In STOCHASTIC ENVIRONMENTAL RESEARCH AND RISK ASSESSMENT. Retrieved from http://hdl.handle.net/10446/32155

Modelling collocation uncertainty of 3D atmospheric profiles

Fasso', Alessandro
2015-01-01

Abstract

Atmospheric thermodynamic data are gathered by high technology remote instruments such as radiosondes, giving rise to profiles that are usually modelled as functions depending only on height. The radiosonde balloons, however, drift away in the atmosphere resulting in not necessarily vertical but three-dimensional trajectories. To model this kind of functional data, we introduce a “point based” formulation of an heteroskedastic functional regression model that includes a trivariate smooth function and results to be an extension of a previously introduced unidimensional model. Functional coefficients of both the conditional mean and variance are estimated by reformulating the model as a standard generalized additive model and subsequently as a mixed model. This reformulation leads to a double mixed model whose parameters are fitted by using an iterative algorithm that allows to adjust for heteroskedasticity. The proposed modelling approach is applied to describe collocation mismatch when we deal with couples of balloons launched at two different locations. In particular, we model collocation error of atmospheric pressure in terms of meteorological covariates and space and time mismatch. Results show that model fitting is improved once heteroskedasticity is taken into account.
articolo
2015
Ignaccolo, Rosaria; Franco-Villoria, Maria; Fasso', Alessandro
(2015). Modelling collocation uncertainty of 3D atmospheric profiles [journal article - articolo]. In STOCHASTIC ENVIRONMENTAL RESEARCH AND RISK ASSESSMENT. Retrieved from http://hdl.handle.net/10446/32155
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Descrizione: This is a post-peer-review, pre-copyedit version of an article published in Stochastic Environmental Research and Risk Assessment. The final authenticated version is available online at: http://dx.doi.org/10.1007/s00477-014-0890-7
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