distribution system operator; smart meters; power grid topology; Pearson correlation
Abstract :
[en] For historical reasons, many distribution system operators (DSOs) do not have complete and accurate information about their networks. In particular, the topology of the
istribution power grid, which is required to carry out numerous analyses necessary
to the energy transition, is generally imprecise. This research work presents a novel approach to verify the distribution network topology on the basis of imperfect data. More precisely, the dynamic data retrieved from a partial coverage of smart meters are utilised for that purpose. Relying on the clustering of electrical phases on the basis of the correlation between voltage time series, the algorithmic solution proposed has the key advantage of yielding interpretable results, in contrast to black-box models. Promising results are reported for a real test case: an area managed by RESA, a Belgian DSO, with a coverage of smart meters
inferior to 20%. Numerous ambiguous situations in the dataset of the DSO have been correctly identified by the algorithm, whose output was perfectly logical from a human’s perspective. To finish with, the interpretability of the results helped to identify ideas to be investigated as future work in order to further improve the algorithmic solution presented.
Disciplines :
Energy Electrical & electronics engineering
Author, co-author :
Théate, Thibaut
Duchesne, Laurine
Leerschool, Adrien
Bahmanyar, Alireza
Gérard, Simon
Wehenkel, Thomas
Ernst, Damien ; Université de Liège - ULiège > Département d'électricité, électronique et informatique (Institut Montefiore) > Smart grids
Language :
English
Title :
Smart meters phase identification for topology verification: Practical challenges and insights from a case study
Publication date :
June 2025
Event name :
28th Conference and Exhibition on Electricity Distribution (CIRED 2025)
