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Multi-Step Wind Power Forecasting with Stacked Temporal Convolutional Network (S-TCN)

Khoa-Minh Nguyen-Huu, Quốc Dũng Phan, Yuan‐Kang Wu, Quoc‐Thang Phan

2023Energies21 citationsDOIOpen Access PDF

Abstract

Nowadays, wind power generation has become vital thanks to its advantages in cost, ecological friendliness, enormousness, and sustainability. However, the erratic and intermittent nature of this energy poses significant operational and management difficulties for power systems. Currently, the methods of wind power forecasting (WPF) are various and numerous. An accurate forecasting method of WPF can help system dispatchers plan unit commitment and reduce the risk of the unreliability of electricity supply. In order to improve the accuracy of short-term prediction for wind power and address the multi-step ahead forecasting, this research presents a Stacked Temporal Convolutional Network (S-TCN) model. By using dilated causal convolutions and residual connections, the suggested solution addresses the issue of long-term dependencies and performance degradation of deep convolutional models in sequence prediction. The simulation outcomes demonstrate that the S-TCN model’s training procedure is extremely stable and has a powerful capacity for generalization. Besides, the performance of the proposed model shows a higher forecasting accuracy compared to other existing neural networks like the Vanilla Long Short-Term Memory model or the Bidirectional Long Short-Term Memory model.

Topics & Concepts

Computer scienceResidualGeneralizationWind powerWind power forecastingConvolutional neural networkLong short term memoryDeep learningPower (physics)Term (time)Reliability engineeringArtificial intelligenceElectric power systemArtificial neural networkRecurrent neural networkMachine learningAlgorithmEngineeringMathematicsElectrical engineeringQuantum mechanicsMathematical analysisPhysicsEnergy Load and Power ForecastingElectric Power System OptimizationSolar Radiation and Photovoltaics
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