Wind Speed Forecasting Using Wavelet Analysis and Recurrent Artificial Neural Networks Based on Local Measurements in Singida Region, Tanzania

Tanzania Journal of Science Pub Date : 2023-09-30 DOI:10.4314/tjs.v49i3.17

Rajabu J. Mangara, Mwingereza J. Kumwenda

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Abstract

High accuracy wind speed forecasting is essential for wind energy harvest and plays a significant role in wind farm management and grid integration. Wind speed is intermittent in nature, which makes the forecasting to be a big challenge. In the present study, three hybrid single-step wind speed forecasting techniques are proposed and tested by local measurement data in Singida region, Tanzania. The three techniques are based on Wavelet Analysis (WA), Back Propagation (BP) optimization algorithm, and Recurrent Neural Network (RNN). They are referred to as WA-RNN, BP-RNN, and WA-BP-RNN. The model results showed that WA-BP-RNN outperforms the other two proposed techniques, with minimum statistical errors of 0.56 m/s (BIAS), 6.89% (MAPE) and 0.53 m/s (RMSE). Furthermore, the WA-BP-RNN technique has shown highest correlation value of 0.95, which indicates that, the strength of a linear association between the observed and forecasted dataset of the wind speed. In addition, the deployment of the BP optimization algorithm in the proposed technique showed improvements of the model results.

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基于小波分析和递归神经网络的坦桑尼亚辛吉达地区风速预报

高精度的风速预报是风能获取的基础，在风电场管理和电网整合中具有重要作用。风速本质上是间歇性的，这使得预测风速成为一个巨大的挑战。本文提出了三种混合单步风速预报技术，并通过坦桑尼亚Singida地区的实测数据进行了试验。这三种技术分别基于小波分析(WA)、反向传播(BP)优化算法和循环神经网络(RNN)。它们被称为WA-RNN、BP-RNN和WA-BP-RNN。模型结果表明，WA-BP-RNN优于其他两种方法，最小统计误差分别为0.56 m/s (BIAS)、6.89% (MAPE)和0.53 m/s (RMSE)。此外，WA-BP-RNN技术显示出最高的相关值0.95，这表明风速观测数据与预测数据之间存在线性关联的强度。此外，BP优化算法在该技术中的应用表明，模型结果有所改善。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Tanzania Journal of Science

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