基于逆变器级数据的光伏发电物联网性能人工神经网络建模

2018 2nd International Conference on Power, Energy and Environment: Towards Smart Technology (ICEPE) Pub Date : 2018-06-01 DOI:10.1109/EPETSG.2018.8659326

Subrahmanyam Pulinaka, Prasidh Kumar, R. Kaushal, Rajneesh Kumar, Vikrant Sharma, Sanjay Kumar

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引用次数: 0

摘要

本文演示了一种利用性能数据和气候参数对逆变器性能进行建模的机制。将不同发电源的光伏发电数据整合到一个平台上。采用稳健的网络体系结构和数据通信设备来获取逆变器级数据。这些数据附有实时气候参数。然后开发了一个模型，用于根据气候参数对光伏装置性能数据进行未来预测。在预测逆变器直流电流输出的过程中，采用人工神经网络(ANN)结构将太阳能板各工艺的气候参数进行关联。该模型对光伏系统直流输出的预测精度达到93.9%

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Performance Modelling of PV Generation with Inverter Level Data Through Internet of Photovoltaics (IoPV) Using Artificial Neural Networks(ANN)

This paper demonstrates a mechanism of modeling the performance of inverters using performance data along with climatological parameters. integrating PV generation data at inverter level from different generation sources in a single platform. A robust network architecture along with the data communication devices is used for fetching the inverter level data. This data is appended with real time climatological parameters. A model is then developed for futuristic prediction of PV installation performance data with respect to climatological parameter. Artificial Neural Network (ANN) architecture is used in the process for correlating the climatological parameters with respect to each technology of solar panel for predicting DC current output of inverter. An accuracy of 93.9% is achieved through this model for predicting the DC output of a PV system

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2018 2nd International Conference on Power, Energy and Environment: Towards Smart Technology (ICEPE)

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