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Deterministic and Probabilistic Prediction of Wind Power Based on a Hybrid Intelligent Model

Jiawei Zhang, Rongquan Zhang, Yanfeng Zhao, Jing Qiu, Siqi Bu, Yuxiang Zhu, Gangqiang Li

2023Energies13 citationsDOIOpen Access PDF

Abstract

Uncertainty in wind power is often unacceptably large and can easily affect the proper operation, quality of generation, and economics of the power system. In order to mitigate the potential negative impact of wind power uncertainty on the power system, accurate wind power forecasting is an essential technical tool of great value to ensure safe, stable, and efficient power generation. Therefore, in this paper, a hybrid intelligent model based on isolated forest, wavelet transform, categorical boosting, and quantile regression is proposed for deterministic and probabilistic wind power prediction. First, isolated forest is used to pre-process the original wind power data and detect anomalous data points in the power sequence. Then, the pre-processed original power sequence is decomposed into sub-frequency signals with better profiles by wavelet transform, and the nonlinear features of each sub-frequency are extracted by categorical boosting. Finally, a quantile-regression-based wind power probabilistic predictor is developed to evaluate uncertainty with different confidence levels. Moreover, the proposed hybrid intelligent model is extensively validated on real wind power data. Numerical results show that the proposed model achieves competitive performance compared to benchmark methods.

Topics & Concepts

Wind powerProbabilistic logicBoosting (machine learning)Wind power forecastingCategorical variableComputer scienceProbabilistic forecastingElectric power systemWavelet transformData miningReliability engineeringWaveletPower (physics)EngineeringArtificial intelligenceMachine learningElectrical engineeringQuantum mechanicsPhysicsEnergy Load and Power ForecastingPower System Reliability and MaintenanceElectric Power System Optimization
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