Multilayer LSTM Model for Wind Power Estimation in the Scada System

European Journal of Technic Pub Date : 2023-11-25 DOI:10.36222/ejt.1382837

S. B. Çelebi, Ömer Ali Karaman

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Abstract

Wind energy is clean energy that does not pollute the environment. However, the complex and variable operating environment of a wind turbine often makes it difficult to predict the instantaneous active power generated. In this study, a wind turbine active power estimation system based on a short-term memory network (LSTM) using time series analysis is proposed. The data obtained from the wind turbine SCADA system is used as input variables. In the proposed method, a multilayer LSTM architecture is designed to train the model. The first LSTM network consists of 64 units, and the second one consists of 32 units. This is followed by a dense layer consisting of 16 neurons. In the last layer, the architecture is finalized by using a linear activation function for the prediction process. The proposed deep learning (DL)-based LSTM prediction model takes into account environmental factors such as wind speed and wind direction for active power forecasting. The results show that the LSTM-based time series analysis method is capable of effectively capturing time series features among the data. Thus, the proposed architecture can realize high-accuracy active power forecasting.

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用于 Scada 系统风力功率估算的多层 LSTM 模型

风能是不污染环境的清洁能源。然而，由于风力涡轮机的运行环境复杂多变，通常很难预测其产生的瞬时有功功率。本研究利用时间序列分析法，提出了一种基于短期记忆网络（LSTM）的风力涡轮机有功功率估算系统。从风力涡轮机 SCADA 系统获取的数据被用作输入变量。在所提出的方法中，设计了一种多层 LSTM 架构来训练模型。第一个 LSTM 网络由 64 个单元组成，第二个由 32 个单元组成。随后是由 16 个神经元组成的密集层。在最后一层，通过使用线性激活函数来完成预测过程，从而最终完成架构。所提出的基于深度学习（DL）的 LSTM 预测模型考虑了风速和风向等环境因素，用于有功功率预测。结果表明，基于 LSTM 的时间序列分析方法能够有效捕捉数据中的时间序列特征。因此，所提出的架构可以实现高精度的有功功率预测。

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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European Journal of Technic

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