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Faculté des Sciences appliquées
Faculté des Sciences appliquées
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Reconstructing Digital Twins of Power Distribution Networks using Machine Learning Techniques

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Colson, Louis ULiège
Promoteur(s) : Ernst, Damien ULiège
Date de soutenance : 24-jui-2024/25-jui-2024 • URL permanente : http://hdl.handle.net/2268.2/20380
Détails
Titre : Reconstructing Digital Twins of Power Distribution Networks using Machine Learning Techniques
Auteur : Colson, Louis ULiège
Date de soutenance  : 24-jui-2024/25-jui-2024
Promoteur(s) : Ernst, Damien ULiège
Membre(s) du jury : Duchesne, Laurine 
Fonteneau, Raphaël ULiège
Langue : Anglais
Nombre de pages : 70
Discipline(s) : Ingénierie, informatique & technologie > Sciences informatiques
Institution(s) : Université de Liège, Liège, Belgique
Diplôme : Master en science des données, à finalité spécialisée
Faculté : Mémoires de la Faculté des Sciences appliquées

Résumé

[fr] The reconstruction of digital twins for power distribution networks using machine learn-
ing techniques presents a promising approach to enhancing the efficiency and reliability of
modern energy systems. This thesis explores methodologies to enhance the creation of ac-
curate digital representations of medium voltage/low voltage (MV/LV) power distribution
networks by leveraging advanced machine learning models. The primary objective is to
correct wrong or missing feeder connections, which is crucial for establishing the topology
between a client and its corresponding transformation point.
To achieve this, we first built a dataset from scratch, identifying relevant features that
could be useful for a machine learning model to output probabilities for each potential
feeder. Our problem is framed as a classification task, where the goal is to predict a likeli-
hood probability for each candidate feeder and select the one with the highest probability.
Once a feeder connection is proposed for a given client, the optimization algorithm de-
scribed in Equation 16a computes the topological path. If a path satisfying all constraints
is found, the client’s feeder information is corrected successfully and integrated into the
power distribution network.
We investigated the effectiveness of Logistic Regression, Random Forest, XGBoost, and
Neural Network models as potential solutions. An in-depth analysis of these models was
conducted to evaluate their respective performances and robustness, delving into the de-
cision processes leading to their predictions. Our examination led to the selection of the
Random Forest model due to its superior performance, achieving a macro average of 78%
Precision, 80% Recall, 79% F1-score, and 94% accuracy.
We also discussed challenging customer cases where no model could immediately pre-
dict the correct feeder connection. Despite these challenges, we successfully corrected 94%
of the clients with missing or faulty feeder information. Finally, we integrated this project
into the production code, enhancing the digital twin of the power distribution network and
improving its overall accuracy and reliability.


Fichier(s)

Document(s)

File
Access TFE_haulogy.pdf
Description: The code is available on the the bitbucket repository of Haulogy
Taille: 5.71 MB
Format: Adobe PDF

Auteur

  • Colson, Louis ULiège Université de Liège > Mast. sc. don. fin. spéc.

Promoteur(s)

Membre(s) du jury

  • Duchesne, Laurine
  • Fonteneau, Raphaël ULiège Université de Liège - ULiège > Dép. d'électric., électron. et informat. (Inst.Montefiore) > Smart grids
    ORBi Voir ses publications sur ORBi
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