Performance evaluation of IEC 61850 GOOSE‐based inter‐substation communication for accelerated distance protection scheme

Aftab, Mohd Asim; Roostaee, Saeed; Hussain, S. M. Suhail; Ali, Ikbal; Thomas, Mini S.; Mehfuz, Shabana

doi:10.1049/iet-gtd.2018.5481

Cited by 36 publications

(17 citation statements)

References 21 publications

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“…In [156], a performance evaluation (fault debug time and recovery time) and a parameter estimation (fault current and trip delay) is performed through a centralized scheme with detailed modeling and co-simulation of all aspects of IEC 61850 network and the power grid. In [157], an experimental validation and performance evaluation of an accelerated protection scheme based on the IEC 61850 is performed. GOOSE protocol messages are evaluated under different Ethernet WAN scenarios.…”

Section: A Ethernetmentioning

confidence: 99%

Control Networks and Smart Grid Teleprotection: Key Aspects, Technologies, Protocols, and Case-Studies

et al. 2020

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The appeal for more reliable, efficient and resilient power grids has become indispensable with the recent technological development and ever-increasing demand for electrical energy. These goals might be achieved by introducing sensors and actuators in the power grid, with the purpose of enabling a smart control of the power network. All power devices must be connected using a reliable communication network, which should be able to operate even when the power grid fails. Currently, several communication technologies have been applied for supporting this new application scenario. This paper aims for reviewing both academic and market use cases for technologies applied to the mission-critical, control networks and Smart Grid applications, such as teleprotection, self-healing, communication with control centers and field devices, among others. More specifically, the key aspects, potential technologies, main protocols and use cases of operating data networks in energy transmission, power distribution and smart grid environments, including circuit and packet switching technologies, are discussed into details. Furthermore, resilience and the main telecommunications technologies used in power grids, as well, the correlation among them, are exploited in practical point of view. The article provides a broad discussion on the best telecommunication options to build the emerging intelligent energy distribution systems, covering control networks, teleprotection, and smart grid applications.

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Section: A Ethernetmentioning

confidence: 99%

Control Networks and Smart Grid Teleprotection: Key Aspects, Technologies, Protocols, and Case-Studies

et al. 2020

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“…The GOOSE messages are LAN-based messages having no Internet or IP layer and is intended for protection purposes. In order to transport GOOSE messages over WAN, tunneling has been employed [13]. Also, differential protection in substations using IEC 61850 has been presented in [14].…”

Section: Iec 61850mentioning

confidence: 99%

ICT Technologies, Standards and Protocols for Active Distribution Network Automation and Management

Aftab¹,

Hussain²,

Ali³

2019

Advanced Communication and Control Methods for Future Smartgrids

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The concept of active distribution network (ADN) is evolved to address the high penetration of renewables in the distribution network. To leverage the benefits of ADN, effective communication and information technology is required. Various communication standards to facilitate standard-based communication in distribution network have been proposed in literature. This chapter presents various communication standards and technologies that can be employed in ADN. Among various communication standards, IEC 61850 standard has emerged as the de facto standard for power utility automation. IEC 61850-based information modeling for ADN entities has also been presented in this chapter. To evaluate the performance of ADN communication architecture, performance metrics and performance evaluation tools have also been presented in this chapter.To facilitate standard communication in the power distribution networks, various standards and protocols such as IEEE P2030, IEC 60870-5, IEEE C37.118.1/2, Distributed Network Protocol (DNP3), IEC 61850, IEC 61970 and IEC 61968, OpenADR, etc., have been developed. This chapter will present a comprehensive analysis of these state-of-the-art standards and protocols for application in ADNs. The challenges presented by these standards are of feasibility, flexibility and interoperability. In this regard IEC 61850 is emerging as one of the most popular and widely accepted solutions since it is based on the interoperability approach and provides flexibility in implementation [2].For information exchange between different components of ADN different communication technologies have been explored in literature [3,4]. This chapter enlists and provides a detailed study of different communication technologies that can be employed in ADNs. The presence of RERs and DERs in ADNs introduces intermittency, thus the communication architecture for ADN must be highly scalable. To address the scalability issue in the smart grid communication architectures Web protocols have been employed. The proposed chapter will present a detail study of the different Web protocols and their suitability for ADNs [5].The performance of different communication network architectures is evaluated for network latency, quality-of-service (QoS), robustness, reliability and data security to determine its applicability and suitability in ADNs. This chapter will discuss the different simulator tools for evaluating the performance of ADN communication networks. An overview of different real-time test beds and state-of-the-art co-simulation platforms of interfacing power system simulators and ICT simulators will be presented. ICT Technologies, Standards and Protocols for Active Distribution Network Automation and… DOI: http://dx.doi.org/10.5772/intechopen.86457 signals, critical alarms, etc., are critical in nature and requires guaranteed delivery to the destination. A ADN can operate in grid connected as well as islanded mode. To switch over from one ADN operation from one mode to another requires communication of commands from AD...

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“…Integration of Distributed Energy Resources (DER), electric vehicles (EVs) and storage devices into traditional electrical power systems makes it more dynamic and increases its operational complexity. Smart Grid (SG) concept is developed to manage this situation through Wide Area Monitoring, Protection and Control (WAMPAC) applications [1]. WAMPAC applications make use of synchrophasor technology which is based on Phasor Measurement Units (PMUs), Phasor Data Concentrators (PDCs) and Wide Area Measurement Systems (WAMS).…”

Section: Introductionmentioning

confidence: 99%

Implementing Secure Routable GOOSE and SV Messages Based on IEC 61850-90-5

Ustun¹,

Farooq

Hussain³

2020

IEEE Access

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Next generation power systems are active networks that handle two-way power flow. They are equipped with extensive communication capabilities to perform dynamic monitoring, protection and control operations. Synchrophasors provide a pseudo real-time representation of grid's current state. Phasor Measurement Units (PMU) placed in different parts of the grid periodically collect synchrophasor data. Then, they send it to a Phasor Data Concentrator (PDCs) through Wide Area Monitoring Systems (WAMS). The entire system formed as PMU Communication Network (PMU-CN) is based on two available frameworks: IEEE C37.118.2 and IEC 61850-90-5. As New York Blackout of 2003 showed that accurate and timely delivery of phasor measurements is vital for secure grid operation. Attacks on PMU-CN may lead to several consequences in the grid and cause physical damage. IEEE C37.118.2 does not specify any security mechanism to mitigate security attacks. To address this gap, security mechanism specified in IEC 61850-90-5 have been implemented using OpenSSL library. A novel toolbox called R-GoSV has been developed to construct PMU messages with cybersecurity mechanisms. Thanks to this tool, custom messages have been transmitted in the network to investigate their effectiveness. Finally, the performance evaluation of the specified security algorithms in terms of computational time sis carried out.

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Performance evaluation of IEC 61850 GOOSE‐based inter‐substation communication for accelerated distance protection scheme

Cited by 36 publications

References 21 publications

Control Networks and Smart Grid Teleprotection: Key Aspects, Technologies, Protocols, and Case-Studies

Control Networks and Smart Grid Teleprotection: Key Aspects, Technologies, Protocols, and Case-Studies

ICT Technologies, Standards and Protocols for Active Distribution Network Automation and Management

Implementing Secure Routable GOOSE and SV Messages Based on IEC 61850-90-5

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