Phaser measurements estimation on distribution networks using machine learning

2017 19th International Conference on Intelligent System Application to Power Systems (ISAP) Pub Date : 2017-09-01 DOI:10.1109/ISAP.2017.8071394

S. Nistor, Aftab Khan, M. Sooriyabandara

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引用次数: 2

Abstract

The uptake of distribution generation on electricity distribution networks imposes the operators to install new measurement devices such as phasor measurement units to achieve network observability. In this paper, we propose a framework for estimating synchronized phasor measurements for a virtual node using the measurements from the other nodes in the network. This system uses a machine learning method, in particular supervised regression models, to provide estimates. We show the performance of the proposed framework comparing two widely used regression methods i.e., Generalized Linear Models and Artificial Neural Networks. We extensively evaluate the proposed approach utilizing a real-world dataset collected from a medium voltage ring feeder. Our results indicate very low error rates; the average error for voltage magnitude was approx. 0.2V while for phase angle was 0.7mrad. Such low errors indicate the potential for reducing the scale of the measuring infrastructure required on distribution networks and increasing their reliability.

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基于机器学习的配电网相位测量估计

配电网对配电发电的采用迫使运营商安装新的测量设备，如相量测量单元，以实现网络的可观测性。本文提出了一种利用网络中其他节点的测量值来估计虚拟节点同步相量测量值的框架。该系统使用机器学习方法，特别是监督回归模型来提供估计。我们比较了两种广泛使用的回归方法，即广义线性模型和人工神经网络，展示了所提出框架的性能。我们利用从中压环形馈线收集的真实数据集广泛评估了所提出的方法。我们的结果表明错误率非常低;电压量级的平均误差约为。0.2V，相角为0.7mrad。如此低的误差表明，有可能减少配电网所需的测量基础设施的规模，并提高其可靠性。

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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来源期刊

2017 19th International Conference on Intelligent System Application to Power Systems (ISAP)

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