Short-term Wind Power Prediction Method Based on UAV Patrol and Deep Confidence Network

Distributed Generation & Alternative Energy Journal Pub Date : 2022-07-27 DOI:10.13052/dgaej2156-3306.3761

Zhang Yiming, Cheng Li

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引用次数: 0

Abstract

At present, wind power has become the most promising energy supply. However, the intermittent and fluctuating wind power also poses a huge challenge to accurately adjust the electrical load. In order to find a method capable of forecasting wind power generation in a short period of time, we propose a short-term wind power generation forecasting method based on an optimized deep belief network approach. Based on GEFCom2012 competition dataset, by continuously tuning the parameters of the deep belief network for 15 sets of experiments, we obtained three optimal laboratory combinations: Experiment 4, Experiment 10, and Experiment 12. The results show that the R-squared values of Experiment 4, Experiment 10 and Experiment 12 are the highest, which are 0.955, 0.93 and 0.98, respectively. The average R-squared value of these three tuned experiments is 0.2342 higher than the average of the other 12 experiments. At the same time, it is concluded that when the learning frequency is low, the linear function can learn the most obvious features more directly; When the learning frequency is high, the nonlinear function can learn the internal latent features more directly.

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基于无人机巡逻和深度置信网络的风电短期预测方法

目前，风力发电已成为最具发展前景的能源供应方式。然而，风力发电的间歇性和波动性也给准确调整电力负荷带来了巨大的挑战。为了找到一种能够预测短时间内风力发电的方法，我们提出了一种基于优化深度信念网络的短期风力发电预测方法。基于GEFCom2012竞赛数据集，通过对15组实验的深度信念网络参数进行连续调优，得到了实验4、实验10和实验12三个最优的实验室组合。结果表明，试验4、试验10和试验12的r平方值最高，分别为0.955、0.93和0.98。这三个调优实验的平均r平方值比其他12个实验的平均值高0.2342。同时，得出了当学习频率较低时，线性函数可以更直接地学习到最明显的特征;当学习频率较高时，非线性函数可以更直接地学习到内部潜在特征。

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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Distributed Generation & Alternative Energy Journal

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