Industrial load forecasting using machine learning in the context of smart grid

2019 54th International Universities Power Engineering Conference (UPEC) Pub Date : 2019-09-01 DOI:10.1109/UPEC.2019.8893540

S. Ungureanu, V. Topa, A. Cziker

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引用次数: 6

Abstract

Integration of industrial consumers into the smart grid concept can be facilitated by optimizing load forecasting for industrial consumers. Minimizing forecast errors can improve the supplier-consumer relationship by reducing balancing costs and anticipate possible network faults. The present paper aims to research the efficiency of machine learning applied for industrial load. The dataset consists of hourly recorded values for electricity consumption generated by a meat processing facility. In the context of installing complex monitoring systems with high frequency recording intervals, huge amounts of data will be generated that require detalied analysis and real time processing, otherwise the investments in the smart grid are not justified, consequently disfavouring the development and digitization of electrical networks. Integration of the industrial consumer into the smart grid concept can be applied in great detail at large industrial consumers through robust forecasting. Forecasting the energy behaviour of a industrial consumer is a difficult task, high forecasting errors have been obtained due to the unpredictability of the consumer.

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基于机器学习的智能电网工业负荷预测

通过优化工业消费者的负荷预测，可以促进工业消费者融入智能电网概念。最小化预测误差可以通过降低平衡成本和预测可能出现的网络故障来改善供需关系。本文旨在研究机器学习在工业负荷中的应用效率。该数据集由肉类加工设施产生的每小时用电量记录值组成。在安装具有高频率记录间隔的复杂监控系统的背景下，将产生大量需要详细分析和实时处理的数据，否则智能电网的投资就不合理，从而不利于电网的发展和数字化。通过鲁棒预测，将工业用户集成到智能电网概念中可以在大型工业用户中得到非常详细的应用。预测工业消费者的能源行为是一项艰巨的任务，由于消费者的不可预测性，预测误差很高。

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2019 54th International Universities Power Engineering Conference (UPEC)

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