电价的多变量概率预测与交易应用

IF 13.6 2区经济学 Q1 ECONOMICS

Energy Economics Pub Date : 2024-11-06 DOI:10.1016/j.eneco.2024.108008

Ilyas Agakishiev , Wolfgang Karl Härdle , Milos Kopa , Karel Kozmik , Alla Petukhina

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引用次数: 0

摘要

本研究在正则化分布多层感知器（DMLP）技术的基础上，扩展了最近推出的神经网络方法，用于多变量情况下的电价预测。对神经网络的全连接架构和 LSTM 架构的性能进行了测试。与以往的研究不同，我们纳入了多个交易所（EPEX 和 Nord Pool）之间的依赖关系。实证数据应用分析了英国市场日前电力市场的两次拍卖。在对概率预测进行统计评估的同时，我们还根据风险调整后的投资者效用函数制定了灵活的投标策略。交易应用利用了两个交易所的差异，在两个交易所都持有多头/空头头寸。我们的研究结果表明，与基准相比，DMLP 表现出相似的性能，但该算法的计算成本要低得多。就分布拟合度的统计评估而言，LASSO 量化回归更胜一筹，而在交易应用中，DMLP 在夏普比率方面表现更好（提高了 18%）。

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Multivariate probabilistic forecasting of electricity prices with trading applications

This study extends recently introduced neural networks approach, based on a regularized distributional multilayer perceptron (DMLP) technique for a multivariate case electricity price forecasting. The performance of a fully connected architecture and a LSTM architecture of neural networks are tested. Different from previous studies we incorporate dependence between multiple exchanges (EPEX and Nord Pool). The empirical data application analyzes two auctions in the day-ahead electricity market for the United Kingdom market. Along with statistical evaluation of probabilistic forecasts we develop a flexible bidding strategy based on risk-adjusted investor utility function. The trading application leverages the differences of the two exchanges by having long/short positions in both. Our findings demonstrate while DMLP shows similar performance compared to the benchmarks, the algorithm is considerably less computationally costly. LASSO Quantile Regression is better in terms if statistical evaluation of distributional fit, while DMLP outperforms in terms of Sharpe ratio (by 18%) in the trading application.

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来源期刊

Energy Economics ECONOMICS-

CiteScore

18.60

自引率

12.50%

发文量

524

期刊介绍： Energy Economics is a field journal that focuses on energy economics and energy finance. It covers various themes including the exploitation, conversion, and use of energy, markets for energy commodities and derivatives, regulation and taxation, forecasting, environment and climate, international trade, development, and monetary policy. The journal welcomes contributions that utilize diverse methods such as experiments, surveys, econometrics, decomposition, simulation models, equilibrium models, optimization models, and analytical models. It publishes a combination of papers employing different methods to explore a wide range of topics. The journal's replication policy encourages the submission of replication studies, wherein researchers reproduce and extend the key results of original studies while explaining any differences. Energy Economics is indexed and abstracted in several databases including Environmental Abstracts, Fuel and Energy Abstracts, Social Sciences Citation Index, GEOBASE, Social & Behavioral Sciences, Journal of Economic Literature, INSPEC, and more.