Comparison of Artificial Neural Network, Linear Regression and Support Vector Machine for Prediction of Solar PV Power

2020 IEEE Pune Section International Conference (PuneCon) Pub Date : 2020-12-16 DOI:10.1109/PuneCon50868.2020.9362442

Ans Maria Kuriakose, Denny Philip Kariyalil, Marymol Augusthy, S. Sarath, Joffie Jacob, N. Antony

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引用次数: 3

Abstract

Solar Photo voltaic (PV) system’s usage is increasing day by day as a substitute of energy considering about the environmental factors. But at the same time its performance have a huge impact. Due to the uncertainty of solar Photo voltaic (PV) power outputs, an accurate method of predicting the output power is required. Thus, a proper estimation of the solar power must be done. Predicting the solar power will help in optimal planning of PV units in generating or transmission, scheduling of other generators by considering the predicted values etc. This paper deals with a comparison between Machine Learning algorithms on Day-Ahead forecasting of the Solar Photo-voltaic output considering the weather parameters (which include wind speed, humidity, radiance and temperature). Artificial Neural Network, Linear Regression and Support Vector Machine have been considered and a conclusion is drawn based on the results obtained. The objective of the paper is to predict the Solar Power at Amal Jyothi College of Engineering, Kanjirapally, Kottayam. To provide real time values weather station has been used. The daily forecast results will help to improve the forecast accuracy which will eventually help in its proper utilization.

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人工神经网络、线性回归和支持向量机在太阳能光伏发电预测中的比较

考虑到环境因素，太阳能光伏系统作为一种替代能源的使用日益增加。但同时它的表现也有巨大的影响。由于太阳能光伏发电输出功率的不确定性，需要一种准确的预测输出功率的方法。因此，必须对太阳能进行适当的估计。预测太阳能发电量将有助于光伏发电或输电机组的优化规划，以及考虑预测值对其他发电机组的调度等。本文比较了机器学习算法在考虑天气参数(包括风速、湿度、辐射度和温度)的太阳能光伏输出日前预测中的应用。本文考虑了人工神经网络、线性回归和支持向量机，并根据所得结果得出结论。本文的目的是预测太阳能发电在Amal Jyothi工程学院，Kanjirapally, Kottayam。为了提供实时数据，使用了气象站。每日的预报结果有助于提高预报的准确性，最终有助于其合理利用。

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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2020 IEEE Pune Section International Conference (PuneCon)

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