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Hauptverfasser: Faiya, Badr Al, McArthur, Stephen, Kockar, Ivana
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2509.07918
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author Faiya, Badr Al
McArthur, Stephen
Kockar, Ivana
author_facet Faiya, Badr Al
McArthur, Stephen
Kockar, Ivana
contents Distribution networks will experience more installations of distributed generation (DG) that is unpredictable and stochastic in nature. Greater distributed control and intelligence will allow challenges such as voltage control to be handled effectively. The partitioning of power networks into smaller clusters provides a method to split the control problem into manageable sub-problems. This paper presents a community detection-based partitioning technique for distribution networks considering local DGs, allowing them to be grouped and controlled in a distributed manner by using local signals and measurements. This method also allows each community to control the voltage using only neighboring DGs, and for each community to self-organize to reflect varying DG conditions and to maintain stable control. Simulations demonstrate that the partitioning of the large distribution network is effective, and each community is able to self-organize and to regulate the voltage independently using only its local DGs.
format Preprint
id arxiv_https___arxiv_org_abs_2509_07918
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Partitioning and Self-organization of Distributed Generation in Large Distribution Networks
Faiya, Badr Al
McArthur, Stephen
Kockar, Ivana
Systems and Control
Distribution networks will experience more installations of distributed generation (DG) that is unpredictable and stochastic in nature. Greater distributed control and intelligence will allow challenges such as voltage control to be handled effectively. The partitioning of power networks into smaller clusters provides a method to split the control problem into manageable sub-problems. This paper presents a community detection-based partitioning technique for distribution networks considering local DGs, allowing them to be grouped and controlled in a distributed manner by using local signals and measurements. This method also allows each community to control the voltage using only neighboring DGs, and for each community to self-organize to reflect varying DG conditions and to maintain stable control. Simulations demonstrate that the partitioning of the large distribution network is effective, and each community is able to self-organize and to regulate the voltage independently using only its local DGs.
title Partitioning and Self-organization of Distributed Generation in Large Distribution Networks
topic Systems and Control
url https://arxiv.org/abs/2509.07918