Artificial neural network model for wind energy on urban building in Bangkok

2017 International Electrical Engineering Congress (iEECON) Pub Date : 2017-03-01 DOI:10.1109/IEECON.2017.8075727

B. Chainok, S. Tunyasrirut, S. Wangnipparnto, W. Permpoonsinsup

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引用次数: 6

Abstract

Renewable energy is clean and effectively infinite. Wind is as sources of sustainable energy. Accessing wind power, it can reduce electric cost for urban building. Wind power generates electricity by converting kinetic energy in wind to generate electricity. In this paper, wind energy is measured on urban building in Bangkok at Pathumwan Institute of Technology (PIT) which is the height from the ground at 25 meters. Approximating a wind power, the weather data consists of wind speed, wind direction, temperature and humidity. The datasets are collected in a minute and converted into database system (PITWeatherDB). Artificial Neural Network (ANN) has been applied to estimate the potential wind energy in short-term. The performances of ANN are considered by mean square error (MSE) and the correlation between ANN output and observed data from PITWeatherDB are measured. The experimental results show that the topology of six neuron nodes in input layer, ten neuron nodes in hidden layer and a neuron node output is trained by Levenberg–Marquardt algorithm. It has high correlation and minimum MSE.

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曼谷城市建筑风能的人工神经网络模型

可再生能源是清洁和有效的无限。风能是一种可持续能源。利用风力发电，可以降低城市建筑用电成本。风力发电是通过将风力中的动能转化为电能来发电的。本文在曼谷Pathumwan理工学院(PIT)的城市建筑上进行了风能测量，该建筑距离地面高度为25米。与风力近似，天气数据包括风速、风向、温度和湿度。数据集在一分钟内收集并转换为数据库系统(PITWeatherDB)。人工神经网络(Artificial Neural Network, ANN)已被应用于短期风能潜力估计。通过均方误差(MSE)来衡量人工神经网络的性能，并测量了人工神经网络输出与PITWeatherDB观测数据之间的相关性。实验结果表明，Levenberg-Marquardt算法可以训练出输入层6个神经元节点、隐藏层10个神经元节点和输出层1个神经元节点的拓扑结构。它具有高相关性和最小的MSE。

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2017 International Electrical Engineering Congress (iEECON)

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