Ted Soubdhan scite author profile

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Classification of daily solar radiation distributions using a mixture of Dirichlet distributions

Soubdhan

Emilion

Calif

2009

Solar Energy

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Hourly forecasting of global solar radiation based on multiscale decomposition methods: A hybrid approach

Monjoly

André

Calif

et al. 2017

Energy

118

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A robust forecasting framework based on the Kalman filtering approach with a twofold parameter tuning procedure: Application to solar and photovoltaic prediction

et al. 2016

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This paper presents a framework which relies on the linear dynamical Kalman filter to perform a reliable prediction for solar and photovoltaic production. The method is convenient for real-time forecasting and we describe its use to perform these predictions for different time horizons, between one minute and one hour ahead. The dataset used is a set of measurements of solar irradiance and PV power production measured in a sub-tropical zone: Guadeloupe. In this zone, fluctuating meteorological conditions can occur, with highly variable atmospheric events having severe impact in the solar irradiance and the PV power. In such conditions, heterogeneous ramp events are observed making difficult to control and manage these sources of energy. The present work hopes to build a suitable statistical method, based on bayesian inference and state-space modeling, able to predict the evolution of solar radiation and PV production. We develop a forecast method based on the Kalman filter combined with a robust parameter estimation procedure built with an Auto Regressive model or with an Expectation-Maximisation algorithm. The model is built to run with univariate or multivariate data according to their availability. The model is used here to forecast the univariate solar and PV data and also PV with exogenous data such as cloud cover and air temperature. The accuracy of this technique is studied with a set of performance criterion including the root mean square error and the mean bias error. We compare the results for the different tests performed, from one minute to one hour ahead, to the simple persistence model. The performance of our technique exceeds by far the traditional persistence model with a skill score improvement around 39% and 31%, respectively for PV production and GHI, for one hour ahead forecast.

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Intermittency study of high frequency global solar radiation sequences under a tropical climate

et al. 2013

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Ted Soubdhan

A benchmarking of machine learning techniques for solar radiation forecasting in an insular context

Classification of daily solar radiation distributions using a mixture of Dirichlet distributions

Hourly forecasting of global solar radiation based on multiscale decomposition methods: A hybrid approach

A robust forecasting framework based on the Kalman filtering approach with a twofold parameter tuning procedure: Application to solar and photovoltaic prediction

Intermittency study of high frequency global solar radiation sequences under a tropical climate

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