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Deep-Learning Prediction Model with Serial Two-Level Decomposition Based on Bayesian Optimization

Xuebo Jin, Hongxing Wang, Xiaoyi Wang, Yuting Bai, Tingli Su, Jianlei Kong

2020Complexity24 citationsDOIOpen Access PDF

Abstract

The power load prediction is significant in a sustainable power system, which is the key to the energy system’s economic operation. An accurate prediction of the power load can provide a reliable decision for power system planning. However, it is challenging to predict the power load with a single model, especially for multistep prediction, because the time series load data have multiple periods. This paper presents a deep hybrid model with a serial two‐level decomposition structure. First, the power load data are decomposed into components; then, the gated recurrent unit (GRU) network, with the Bayesian optimization parameters, is used as the subpredictor for each component. Last, the predictions of different components are fused to achieve the final predictions. The power load data of American Electric Power (AEP) were used to verify the proposed predictor. The results showed that the proposed prediction method could effectively improve the accuracy of power load prediction.

Topics & Concepts

Computer scienceElectric power systemPower (physics)DecompositionElectrical loadBayesian networkArtificial intelligenceQuantum mechanicsEcologyBiologyPhysicsEnergy Load and Power ForecastingImage and Signal Denoising MethodsSmart Grid and Power Systems
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