Data-driven method for the improving forecasts of local weather dynamics

Engineering Applications of Artificial Intelligence(2021)

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Abstract
This paper describes the modeling approach for lower atmosphere dynamics in a selected location. The purpose of this model is to provide short-term and long-term forecasts of the weather variables which are used as the input data for the model of the dispersion of radioactive air pollution. The information from this integrated system is important for the implementation of the population safety measures in the case of a nuclear accident with an atmospheric release. We developed a dynamical, probabilistic, and non-parametric model based on Gaussian processes (GPs). GP nonlinear autoregressive model with exogenous inputs and variational training principle was implemented for multi-output training. A Monte Carlo approach to multi-output simulation of the model for long-term forecasts is presented which allows arbitrary prior distributions over function values. The model encompasses all available measurements from the weather stations near the location of interest and combines them with the forecasts from the numerical weather prediction model. The contribution of the developed model is the harvesting of all available information and simultaneously providing interconnected forecasts. The key result of this investigation is the improvement of short-term and long-term weather variable forecasts over those of the numerical weather prediction model. Consequently, we significantly enhance the dispersion forecast of radioactive air pollution for the case study considered. The computationally demanding modeling is accelerated using general-purpose computing on graphics processing units. The proposed method represents a step forward in the assurance of safety in the case of a nuclear accident.
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Key words
Hybrid model,Atmospheric variables,Numerical weather prediction model,Statistical modeling,Gaussian process model
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