Abstract
Standardized communication plays an important role in substation automation system (SAS). IEC 61850 is a de-facto standard in SAS. It facilitates smooth communication between different devices located in the substation by achieving interoperability. Generic Object-Oriented Substation Event (GOOSE) and Sample Value (SV) messages developed according to IEC 61850 enable efficient monitoring and operation control of SAS. IEC 61850 is very popular due to its flexible and robust modeling. As the number of critical infrastructures that employed IEC 61850 increases, it is important to study cybersecurity aspects as well. To this end, this paper develops a software framework, S-GoSV (Secure GOOSE and SV), that generates custom GOOSE and Sample Value messages. Furthermore, security features are added to protect them from different security attacks within a substation. IEC 62351-6 specifies digital signatures to achieve node authentication and messages integrity. Therefore, S-GoSV implements RSASSA-PKCS1-v1_5 digital signature algorithm based on RFC 2313. Performance studies show that digital signature algorithms based on RSA signing and verification take long times and do not conform to timing requirements stipulated by IEC 61850 for power system communication. To address this, Message Authentication Code (MAC) based digital signature algorithm, Keyed Hash-Message Authentication Code- Secure Hash Algorithm (HMAC-SHA256), is additionally implemented in S-GoSV framework for securing GOOSE messages.
Highlights
Legacy power systems are transforming into smart grids which are designed to operate in a more reliable and resilient fashion
Performance studies show that digital signature algorithms based on RSA signing and verification take long times and do not conform to timing requirements stipulated by IEC 61850 for power system communication
The output of encoding scheme is converted into integer representation (x) which is further signed with RSA private key (Pr_Key) that generates digital signature
Summary
Legacy power systems are transforming into smart grids which are designed to operate in a more reliable and resilient fashion. Due to its widespread popularity and success, it was extended to other components in power grids such as fault current limiters [4], Distributed Energy Resources (DERs) [5], Electric Vehicles (EVs) [6] and smart meters [7] In these new implementations, IEC 61850 GOOSE and SV are utilized to exchange different data sets between DERs, EVs and other components. Authors in [14] reviewed cyber security challenges and potential threats in IEC 61850-substation network and summarized security measures They argue that among different IEC 61850 services such as GOOSE, SV and MMS, GOOSE message service is of paramount importance as it carries time critical information related to power system operation. It shows implementation details of GoSV software framework that generates custom GOOSE and Sample Values.
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