Abstract
Due to the continuous increasing importance of renewable energy sources as an alternative to fossil fuels, to contrast air pollution and global warming, the prediction of Global Horizontal Irradiation (GHI), one of the main parameters determining solar energy production of photovoltaic systems, represents an attractive topic nowadays. Solar irradiance is determined by deterministic factors (i.e. the position of the sun) and stochastic factors (i.e. the presence of clouds). Since the stochastic element is difficult to model, this problem can benefit from machine learning techniques, like artificial neural networks. This work proposes a methodology to forecast GHI in short- (i.e. from 15 min to 60 min) and mid-term (i.e. from 60 to 120 min) time horizons. For this purpose, we designed, optimised and compared four neural network architectures for time-series forecasting, respectively based on: i) Non-Linear Autoregressive, ii) Feed-Forward, iii) Long Short-Term Memory and iv) Echo State Network. The original data-set, consisting of GHI values sampled every 15min, has been pre-processed by applying different filtering techniques. Our results analysis compares the performance of the proposed neural networks identifying the best in terms of error rate and forecast horizon. This analysis highlights that the clear-sky index results the preferred filtering technique by giving greatly improvements in data-set pre-processing, and Echo State Network gives best accuracy results.
Highlights
Nowadays, renewable energy is a very hustling research area
According to the World Health Organisation (WHO), air pollution is responsible for 7 million deaths every year, and 91% of the world population lives in places where air quality exceeds the limits mandated by the WHO itself [2]
We propose a methodology for short- and mid-term Global Horizontal Irradiance (GHI) forecast, with 15 min time-steps, exploiting state-of-the-art neural networks models in time-series scenario
Summary
Renewable energy is a very hustling research area. Greenhouse gas emissions from fossil fuels are one of the major drivers of anthropogenic climate changes. According to a 2018 special report by the Intergovernmental Panel on Climate Change (IPCC), immediate action must be taken to limit the increase in global temperature to 1.5 °C and avoid the worst consequences of global warming [3]. For these reasons, renewable energy sources (RES) will have a key role in the future of our society. The scientific community is researching new models and new optimisation methods to better manage these resources
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