Real-time and consistent sparse estimation of power system distribution factors using online adaptive elastic-net

•A novel Online Adaptive Elastic-net method is proposed for real-time and consistent sparse estimation of distribution factors in large-scale power systems.•It promotes the data-driven, sparsity-aware, and computationally efficient sensitivity analysis of active power line flows.•The proposed method...

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Bibliographic Details
Published in:International journal of electrical power & energy systems 2022-11, Vol.142, p.108361, Article 108361
Main Authors: Liang, Yingqi, Zhao, Junbo, Sampath Kumar, Dhivya, Srinivasan, Dipti
Format: Article
Language:English
Subjects:
Active power line flow
Distribution factor
Power system sensitivity analysis
Sensitivity estimation
Sparse representation
Transmission monitoring and secure operation
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Summary:•A novel Online Adaptive Elastic-net method is proposed for real-time and consistent sparse estimation of distribution factors in large-scale power systems.•It promotes the data-driven, sparsity-aware, and computationally efficient sensitivity analysis of active power line flows.•The proposed method can broadly facilitate real-time situational awareness and decision-making for improving power system security. Distribution factors (DFs) are vital for power system monitoring and secure operation. However, it is challenging to accurately estimate dominant DFs while promoting the sparsity of DFs in real time, especially in large-scale power systems with high-dimensional data. This paper proposes a novel Online Adaptive Elastic-net (AdaEnet) method to address this challenge, which allows the real-time and consistent sparse estimation of DFs in large-scale power systems. The problem is formulated as a sparse regression problem using data measured by phasor measurement units. The AdaEnet estimator is advocated to promote the sparsity of DFs, and a LARS-AdaEnet algorithm is developed for the real-time estimation of DFs. Thanks to the oracle properties and the grouping effect of the AdaEnet, the method yields unbiased dominant estimates with stability to collinear predictor variables, even for underdetermined systems. Moreover, due to the online updated adaptive weights and the early-stopping property of the LARS-AdaEnet, the method efficiently solves the estimator using only a few latest samples. Test results on the IEEE 300- and the Polish 3375-bus systems demonstrate that the proposed method achieves high estimation consistency and real-time adaptability in the presence of high-dimensional data (i.e., massive collinear predictor variables of small sample size). Hence this method promotes the data-driven, sparsity-aware, and computationally efficient sensitivity analysis of active power line flows in large-scale power systems. It can broadly facilitate real-time situational awareness and decision-making for improving power system security.
ISSN:0142-0615
1879-3517
DOI:10.1016/j.ijepes.2022.108361