Deep learning for energy markets

Deep learning for energy markets

Deep Learning (DL) is combined with extreme value theory (EVT) to predict peak loads observed in energy grids. Forecasting energy loads and prices is challenging due to sharp peaks and troughs that arise due to supply and demand fluctuations from intraday system constraints. We propose a deep tempor...

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Veröffentlicht in:Applied stochastic models in business and industry 2020-01, Vol.36 (1), p.195-209
Hauptverfasser: Polson, Michael, Sokolov, Vadim
Format: Artikel
Sprache:eng
Schlagworte:
Computer architecture
Deep learning
Economic forecasting
Electric power grids
Energy industry
energy pricing
Extreme value theory
Extreme values
locational marginal price
long‐short‐term memory
Machine learning
Mathematical models
Peak load
peak prediction
PJM interconnection
Pricing
rectified linear unit
smart grid
Spikes
Supply & demand
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Beschreibung
Zusammenfassung:Deep Learning (DL) is combined with extreme value theory (EVT) to predict peak loads observed in energy grids. Forecasting energy loads and prices is challenging due to sharp peaks and troughs that arise due to supply and demand fluctuations from intraday system constraints. We propose a deep temporal extreme value model to capture these effects, which predicts the tail behavior of load spikes. Deep long‐short‐term memory architectures with rectified linear unit activation functions capture trends and temporal dependencies, while EVT captures highly volatile load spikes above a prespecified threshold. To illustrate our methodology, we develop forecasting models for hourly price and demand from the PJM interconnection. The goal is to show that DL‐EVT outperforms traditional methods, both in‐ and out‐of‐sample, by capturing the observed nonlinearities in prices and demand spikes. Finally, we conclude with directions for future research.
ISSN:1524-1904
1526-4025
DOI:10.1002/asmb.2518