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Machine Learning-Driven Virtual Bidding With Electricity Market Efficiency Analysis

Yinglun Li, Nanpeng Yu, Wang Wei

2021IEEE Transactions on Power Systems37 citationsDOI

Abstract

This paper develops a machine learning-driven portfolio optimization framework for virtual bidding in electricity markets considering both risk constraint and price sensitivity. The algorithmic trading strategy is developed from the perspective of a proprietary trading firm to maximize profit. A recurrent neural network-based Locational Marginal Price (LMP) spread forecast model is developed by leveraging the inter-hour dependencies of the market clearing algorithm. The LMP spread sensitivity with respect to net virtual bids is modeled as a monotonic function with the proposed constrained gradient boosting tree. We leverage the proposed algorithmic virtual bid trading strategy to evaluate both the profitability of the virtual bid portfolio and the efficiency of U.S. wholesale electricity markets. The comprehensive empirical analysis on PJM, ISO-NE, and CAISO indicates that the proposed virtual bid portfolio optimization strategy considering the price sensitivity explicitly outperforms the one that neglects the price sensitivity. The Sharpe ratio of virtual bid portfolios for all three electricity markets are much higher than that of the S&P 500 index. It was also shown that the efficiency of CAISO's two-settlement system is lower than that of PJM and ISO-NE.

Topics & Concepts

BiddingComputer sciencePortfolio optimizationElectricity marketPortfolioForward contractElectricityProfitability indexMicroeconomicsFutures contractMathematical optimizationEconomicsFinancial economicsFinanceElectrical engineeringEngineeringMathematicsEnergy Load and Power ForecastingElectric Power System OptimizationSmart Grid Energy Management
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