Survivable SCADA Via Intrusion-Tolerant Replication

Author

Kirsch, Jonathan ; Goose, Stuart ; Amir, Yair ; Dong Wei ; Skare, Paul

Author_Institution

Siemens Technol.-To-Bus. Center, Berkeley, CA, USA

Volume

5

Issue

1

fYear

2014

fDate

Jan. 2014

Firstpage

60

Lastpage

70

Abstract

Providers of critical infrastructure services strive to maintain the high availability of their SCADA systems. This paper reports on our experience designing, architecting, and evaluating the first survivable SCADA system-one that is able to ensure correct behavior with minimal performance degradation even during cyber attacks that compromise part of the system. We describe the challenges we faced when integrating modern intrusion-tolerant protocols with a conventional SCADA architecture and present the techniques we developed to overcome these challenges. The results illustrate that our survivable SCADA system not only functions correctly in the face of a cyber attack, but that it also processes in excess of 20 000 messages per second with a latency of less than 30 ms, making it suitable for even large-scale deployments managing thousands of remote terminal units.

Keywords

SCADA systems; fault tolerance; production engineering computing; security of data; SCADA architecture; cyber attacks; intrusion-tolerant protocols; intrusion-tolerant replication; performance degradation; survivable SCADA system; Clocks; Libraries; Monitoring; Protocols; SCADA systems; Servers; Synchronization; Cyber attack; SCADA systems; fault tolerance; reliability; resilience; survivability;

fLanguage

English

Journal_Title

Smart Grid, IEEE Transactions on

Publisher

ieee

ISSN

1949-3053

Type

jour

DOI

10.1109/TSG.2013.2269541

Filename

6576306