Towards Latency Bypass and Scalability Maintain in Digital Substation Communication Domain with IEC 62439-3 Based Network Architecture

Towards Latency Bypass and Scalability Maintain in Digital Substation Communication Domain with IEC 62439-3 Based Network Architecture

Parallel redundancy protocol (PRP) and high-availability redundancy protocol (HSR) are widely adopted protocols based on IEC 61850 standard to support zero recovery communication networks for time-critical and reliable interactions in power system substations. However, hiring these protocols comes w...

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Bibliographic Details
Main Authors: Lilia Tightiz, Joon Yoo
Format: Article
Language:English
Published: MDPI AG 2022-06-01
Series:Sensors
Subjects:
high-availability redundancy protocol (HSR)
latency
parallel redundancy protocol (PRP)
scalability
substation communication network
Online Access:https://www.mdpi.com/1424-8220/22/13/4916
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author Lilia Tightiz
Joon Yoo
author_facet Lilia Tightiz
Joon Yoo
author_sort Lilia Tightiz
collection DOAJ
description Parallel redundancy protocol (PRP) and high-availability redundancy protocol (HSR) are widely adopted protocols based on IEC 61850 standard to support zero recovery communication networks for time-critical and reliable interactions in power system substations. However, hiring these protocols comes with technical and economic constraints that impact the size of the substation network arrangement. Therefore, we will undertake a theoretical analysis of HSR, PRP, and their combinations to reach a maximum number of nodes in different substation communication architectures regarding IEC 61850 standard message time constraint requirements and IEC 62439-3 standard regulations. We will validate our findings through a simulation in the OPNET Modeler environment. In addition, we considered bandwidth efficiency by prohibiting the extra circulation of packets in the redundancy Box (RedBox) and QuadBox implementation as interfaces for HSR and PRP connection and HSR rings interconnection, respectively, which represent the main hindrance in utilizing the combination of these protocols.
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spelling doaj.art-62ad3341964248cea8871b0c6b660fd52023-11-30T22:27:13ZengMDPI AGSensors1424-82202022-06-012213491610.3390/s22134916Towards Latency Bypass and Scalability Maintain in Digital Substation Communication Domain with IEC 62439-3 Based Network ArchitectureLilia Tightiz0Joon Yoo1School of Computing, Gachon University, 1342 Seongnamdaero, Seongnam 13120, KoreaSchool of Computing, Gachon University, 1342 Seongnamdaero, Seongnam 13120, KoreaParallel redundancy protocol (PRP) and high-availability redundancy protocol (HSR) are widely adopted protocols based on IEC 61850 standard to support zero recovery communication networks for time-critical and reliable interactions in power system substations. However, hiring these protocols comes with technical and economic constraints that impact the size of the substation network arrangement. Therefore, we will undertake a theoretical analysis of HSR, PRP, and their combinations to reach a maximum number of nodes in different substation communication architectures regarding IEC 61850 standard message time constraint requirements and IEC 62439-3 standard regulations. We will validate our findings through a simulation in the OPNET Modeler environment. In addition, we considered bandwidth efficiency by prohibiting the extra circulation of packets in the redundancy Box (RedBox) and QuadBox implementation as interfaces for HSR and PRP connection and HSR rings interconnection, respectively, which represent the main hindrance in utilizing the combination of these protocols.https://www.mdpi.com/1424-8220/22/13/4916high-availability redundancy protocol (HSR)latencyparallel redundancy protocol (PRP)scalabilitysubstation communication network
spellingShingle Lilia Tightiz
Joon Yoo
Towards Latency Bypass and Scalability Maintain in Digital Substation Communication Domain with IEC 62439-3 Based Network Architecture
Sensors
high-availability redundancy protocol (HSR)
latency
parallel redundancy protocol (PRP)
scalability
substation communication network
title Towards Latency Bypass and Scalability Maintain in Digital Substation Communication Domain with IEC 62439-3 Based Network Architecture
title_full Towards Latency Bypass and Scalability Maintain in Digital Substation Communication Domain with IEC 62439-3 Based Network Architecture
title_fullStr Towards Latency Bypass and Scalability Maintain in Digital Substation Communication Domain with IEC 62439-3 Based Network Architecture
title_full_unstemmed Towards Latency Bypass and Scalability Maintain in Digital Substation Communication Domain with IEC 62439-3 Based Network Architecture
title_short Towards Latency Bypass and Scalability Maintain in Digital Substation Communication Domain with IEC 62439-3 Based Network Architecture
title_sort towards latency bypass and scalability maintain in digital substation communication domain with iec 62439 3 based network architecture
topic high-availability redundancy protocol (HSR)
latency
parallel redundancy protocol (PRP)
scalability
substation communication network
url https://www.mdpi.com/1424-8220/22/13/4916
work_keys_str_mv AT liliatightiz towardslatencybypassandscalabilitymaintainindigitalsubstationcommunicationdomainwithiec624393basednetworkarchitecture
AT joonyoo towardslatencybypassandscalabilitymaintainindigitalsubstationcommunicationdomainwithiec624393basednetworkarchitecture

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