Data Driven Natural Gas Spot Price Prediction Models Using Machine Learning Methods

Data Driven Natural Gas Spot Price Prediction Models Using Machine Learning Methods

Su, Moting;Zhang, Zongyi;Zhu, Ye;Zha, Donglan;Wen, Wenying;
energies 2019 Vol. 12 pp. 1680-
164
su2019dataenergies

Abstract

Natural gas has been proposed as a solution to increase the security of energy supply and reduce environmental pollution around the world. Being able to forecast natural gas price benefits various stakeholders and has become a very valuable tool for all market participants in competitive natural gas markets. Machine learning algorithms have gradually become popular tools for natural gas price forecasting. In this paper, we investigate data-driven predictive models for natural gas price forecasting based on common machine learning tools, i.e., artificial neural networks (ANN), support vector machines (SVM), gradient boosting machines (GBM), and Gaussian process regression (GPR). We harness the method of cross-validation for model training and monthly Henry Hub natural gas spot price data from January 2001 to October 2018 for evaluation. Results show that these four machine learning methods have different performance in predicting natural gas prices. However, overall ANN reveals better prediction performance compared with SVM, GBM, and GPR.

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