Control coordination in inverter‐based microgrids using AoI‐based 5G schedulers

Biplav Choudhury; Ardavan Mohammadhassani; Brady Alexander; Rahul Iyer; Ali Mehrizi‐Sani; Jeffrey H. Reed; Vijay K. Shah

doi:10.1049/stg2.12136

IET Smart Grid (Feb 2024)

Control coordination in inverter‐based microgrids using AoI‐based 5G schedulers

Biplav Choudhury,
Ardavan Mohammadhassani,
Brady Alexander,
Rahul Iyer,
Ali Mehrizi‐Sani,
Jeffrey H. Reed,
Vijay K. Shah

Affiliations

Biplav Choudhury: Bradley Department of Electrical and Computer Engineering Virginia Polytechnic Institute and State University Blacksburg Virginia USA
Ardavan Mohammadhassani: Bradley Department of Electrical and Computer Engineering Virginia Polytechnic Institute and State University Blacksburg Virginia USA
Brady Alexander: Bradley Department of Electrical and Computer Engineering Virginia Polytechnic Institute and State University Blacksburg Virginia USA
Rahul Iyer: Bradley Department of Electrical and Computer Engineering Virginia Polytechnic Institute and State University Blacksburg Virginia USA
Ali Mehrizi‐Sani: Bradley Department of Electrical and Computer Engineering Virginia Polytechnic Institute and State University Blacksburg Virginia USA
Jeffrey H. Reed: Bradley Department of Electrical and Computer Engineering Virginia Polytechnic Institute and State University Blacksburg Virginia USA
Vijay K. Shah: Cybersecurity Engineering Department George Mason University Fairfax Virginia USA

DOI: https://doi.org/10.1049/stg2.12136
Journal volume & issue: Vol. 7, no. 1
pp. 38 – 50

Abstract

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Abstract A coordinated set point automatic adjustment with correction enabled (C‐SPAACE) framework that uses 5G communication for real‐time control coordination between inverter‐based resources (IBR) in microgrids is proposed. Utilising slicing capability, 5G offers low‐latency communication to C‐SPAACE under normal conditions. However, given the multitude of power grid use cases, a certain 5G slice for C‐SPAACE may have access only to limited radio spectrum resources, which if not managed well, greatly undermines the communication needs of C‐SPAACE framework. Thus, optimally scheduling the available spectrum resources among IBRs in a sliced 5G network‐based C‐SPAACE framework becomes a critical problem. To address this issue, the authors utilise a novel age of information (AoI) metric and designs an AoI‐based 5G scheduler to provide low‐latency communication to C‐SPAACE. Following this, a co‐simulation environment is designed using PSCAD/EMTDC and Python to simulate a microgrid supported by 5G communication. Time‐domain simulation case studies are performed using the proposed co‐simulation environment to evaluate the performance of C‐SPAACE using 5G with both AoI‐based and other baseline (non‐AoI) schedulers.

Published in IET Smart Grid

ISSN: 2515-2947 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering
Website: https://ietresearch.onlinelibrary.wiley.com/journal/25152947

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