Abstract

As the world witnesses population increase, the global power demand is increasing and the need for exploring other alternative clean and self-renewable sources of energy such as wind has become necessary. For optimal operation of the wind farms and stability of the grid, wind prediction ahead of time is of key importance. An accurate forecast of wind speed is often difficult due to the unpredictable nature of the wind. In this work, we utilized different machine learning models and proposed a hybrid machine learning approach. This approach combines 1D convolutional neural network (CNN) and bidirectional long short term memory (BLSTM) network for accurate prediction of short term wind prediction at different heights above ground level (AGL). The 1D CNN model extracts high-level features of the input wind speed data. The extracted features are then fed as input to the BLSTM network for wind speed prediction. The wind speed time series data used in this study are measured at 18, and 98 meters AGL. The study further presents a relationship between the utilized models and prediction accuracy at different heights. The forecasting performance of the models tends to increase as the height AGL increases. A real-world case study is implemented to demonstrate the effectiveness of the proposed CNN-BLSTM method in Saudi Arabia. The mean absolute error (MAE), mean squared error (MSE), root mean squared error (RMSE), and mean absolute percentage error (MAPE) are used as performance indices to evaluate the performance of the proposed CNN-BLTSM model. The corresponding results show that the proposed method outperforms other benchmark models.

Highlights

  • Wind power plays an important role in global energy growth due to its clean, pollution-free, and self renewing nature

  • Verifying the ability of convolutional neural network (CNN) to extract high-level feature from the input wind speed data and ensuring high prediction capability, accuracy, and stability of the proposed hybrid model that combines the merits of CNN and bidirectional long short term memory (BLSTM)

  • We proposed a hybrid deep learning based model for short term wind speed forecasting

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Summary

INTRODUCTION

Wind power plays an important role in global energy growth due to its clean, pollution-free, and self renewing nature. Artificial intelligent methods have become popular for wind speed forecasting due to the development of soft computing technologies This technique helps in capturing the randomness, non-stationarity, and non-linearity associated with the wind speed data which facilitate accurate prediction ahead of time. As a result of the increasing demand for deep learning accuracy and efficiency, many researchers have proposed the use of CNN with other deep learning approaches to form a hybrid network that can improve time series forecasting performance. Verifying the ability of CNN to extract high-level feature from the input wind speed data and ensuring high prediction capability, accuracy, and stability of the proposed hybrid model that combines the merits of CNN and BLSTM.

METHODOLOGIES
PERFORMANCE EVALUATION INDEXES
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CONCLUSION

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