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A Class-Driven Approach Based on Long Short-Term Memory Networks for Electricity Price Scenario Generation and Reduction

Bart Stappers, Nikolaos G. Paterakis, Koen Kok, Madeleine Gibescu

2020IEEE Transactions on Power Systems41 citationsDOIOpen Access PDF

Abstract

Uncertainty characterization is an essential component of decision-making problems in electricity markets. In this work, a class-driven approach is proposed to describe stochasticity. The methodology consists of a three-step process that includes a class allocation component, a generative element based on a long short-term memory neural network and an automated reduction method with a variance-based continuation criterion. The system is employed and evaluated on Dutch imbalance market prices. Test results are presented, expressing the proficiency of the approach, both in generating realistic scenario sets that reflect the erratic dynamics in the data and adequately reducing generated sets without the need to explicitly and manually predetermine the cardinality of the reduced set.

Topics & Concepts

Cardinality (data modeling)Computer scienceReduction (mathematics)Electricity marketComponent (thermodynamics)ElectricityClass (philosophy)Term (time)Artificial neural networkVariance (accounting)Mathematical optimizationSet (abstract data type)Process (computing)Artificial intelligenceData miningMathematicsEngineeringEconomicsThermodynamicsGeometryQuantum mechanicsProgramming languageAccountingElectrical engineeringOperating systemPhysicsElectric Power System OptimizationEnergy Load and Power ForecastingPower System Reliability and Maintenance
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