Petra Raussi scite author profile

and beyond systems are expected to accelerate the ongoing transformation of power systems towards the smart grid. However, the inherent heterogeneity in smart grid services and requirements pose significant challenges towards the definition of a unified network architecture. In this context, radio access network (RAN) slicing emerges as a key 5G enabler to ensure interoperable connectivity and service management in the smart grid. This article introduces a novel RAN slicing framework which leverages the potential of artificial intelligence (AI) to support IEC 61850 smart grid services. With the aid of deep reinforcement learning, efficient radio resource management for RAN slices is attained, while conforming to the stringent performance requirements of a smart grid selfhealing use case. Our research outcomes advocate the adoption of emerging AI-native approaches for RAN slicing in beyond-5G systems, and lay the foundations for differentiated service provisioning in the smart grid.

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Operational testing of virtual and physical IEDs using GOOSE for protection application

Ansari

Das

Weller

et al. 2020

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Edge Computing supported Fault Indication in Smart Grid

Raussi

Kilpi

Kokkoniemi‐Tarkkanen

et al. 2022

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Improving Reliability of Protection Communication in a 5G Slice

Raussi

Kokkoniemi-Tarkkanen²,

Ahola³

et al. 2023

Preprint

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5G network slicing is a promising solution to prioritize time-critical protection communication in wireless networks. However, recent trends indicate that a 5G slice could encompass all smart grid applications lacking the necessary granularity. At the same time, while substation communication standards recommend prioritization of protection communication traffic to improve reliability, these recommendations are only for wired connections. Therefore, this paper investigates traffic shaping and uplink (UL) bitrate adaptation of video stream based on existing commercial solutions as methodologies for prioritizing the protection communication in a 5G slice. These methodologies are validated in an experimental setup combining controller-hardware-in-the-loop (CHIL) simulation with a quality of service (QoS) measurement system. The system under test consists of commercial 5G networks, commercial intelligent electronic devices (IEDs), and merging units to validate the methodologies on three smart grid applications: fault location, line differential, and intertrip protection. The results show improvement in protection communication when traffic shaping and UL bitrate adaptation are applied. Traffic shaping even improves prioritization with a wired connection.

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Petra Raussi

Cellular Networks Providing Distribution Grid Communications Platform

Boosting 5G on Smart Grid Communication: A Smart RAN Slicing Approach

Operational testing of virtual and physical IEDs using GOOSE for protection application

Edge Computing supported Fault Indication in Smart Grid

Improving Reliability of Protection Communication in a 5G Slice

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