Back to Search Start Over

Analyzing Reliability of the Communication for Secure and Highly Available GOOSE-Based Logic Selectivity

Authors :
Jafary, Peyman
Supponen, Antti
Salmenperä, Mikko
Repo, Sami
Tampere University
Electrical Engineering
Automation Technology and Mechanical Engineering
Source :
Security and Communication Networks, Vol 2019 (2019)
Publication Year :
2019

Abstract

In an electrical distribution network, Logic Selectivity significantly reduces both the number and duration of outages. Generic Object-Oriented Substation Events (GOOSE) have a key role in the decision-making process of substation protection devices using GOOSE-based Logic Selectivity. GOOSE messages are exchanged between remote protection devices over the communication network. Secured communication with low latency and high reliability is therefore required in order to ensure reliable operation as well as meeting real-time requirement of the Logic Selectivity application. There is thus a need to evaluate feasibility of the selected communication network technology for Logic Selectivity use cases. This paper analyzes reliability of cellular 4G/LTE Internet for GOOSE communication in a Logic Selectivity application. For this purpose, experimental lab set-ups are introduced for different configurations: ordinary GOOSE communication, secured GOOSE communication by IPsec in Transport mode, and redundant GOOSE communication using the IEC 62439-3 Parallel Redundancy Protocol. In each configuration, the GOOSE retransmissions are recorded for a period of three days and the average GOOSE transmission time is measured. Furthermore, the measured data is classified into histograms and a probability value for communication reliability, based on the transmission time, is calculated. The statistical analysis shows that 4G Internet satisfies the real-time and reliability requirements for secure and highly available GOOSE-based Logic Selectivity. publishedVersion

Details

Language :
English
Database :
OpenAIRE
Journal :
Security and Communication Networks, Vol 2019 (2019)
Accession number :
edsair.dedup.wf.001..b3ac1f7f9232df0b067b7ea0c5f1226c