The San Diego Supercomputer Center (SDSC) at the University of California, San Diego, is collaborating with Leidos (formerly Science Applications International Corporation) to develop a reference system architecture aimed at increasing security levels of microgrid control and IT systems used to manage electrical microgrids worldwide.
The growth in the use of microgrids has been driven by concerns about rising fuel costs for macrogrids, as well as macrogrid reliability, due to local community impacts such as loss of power to millions of people caused by natural disasters (e.g. Hurricane Irene in 2011 and Hurricane Sandy in 2012). With the advent of the smart grid, another concern comes from the awareness of cyber threats facing macrogrids.
“Given the importance of these new microgrids, it is important to take a methodical approach to creating a security architecture that can be applied to these systems in a relatively standardized manner,” said Brian Russell, chief engineer for cybersecurity solutions at Leidos. Leidos is among the first companies to champion the integrated application of advanced transmission and distribution technologies for a modernized grid.
The SDSC project will focus on analyzing the cybersecurity aspect of one of the world’s most advanced microgrids, located on the UC San Diego campus. The university saves more than $8 million a year in power costs due to its microgrid operation. The campus’ microgrid has also spurred investment: the nearly $4 million that the Energy Commission has invested in the microgrid since 2008 has been leveraged to garner more than $4 million from other funding sources, both public and private.
“Improving security for our sophisticated microgrid is extremely important to us,” said Byron Washom, director of Strategic Energy Initiatives at UC San Diego. “This project will allow us to establish effective baseline security controls that could be applied to microgrids all over the world.”
“SDSC will contribute its security experience in dealing with complex supercomputer systems as well as securing sensitive data such as FISMA- and HIPAA-compliant databases, to help raise awareness of security issues facing microgrids,” added Winston Armstrong, SDSC’s chief information security officer. “SDSC will also recommend improvements to harden microgrid control systems in general.”
A well-defined security architecture and best practices to be developed under this project will provide a defense-in-depth approach to securing microgrids, ensuring that threat vectors identified during the threat analysis phase are properly mitigated. This security architecture shall be designed to support the anticipated future growth of the UC San Diego microgrid, as well as microgrids around the world.
The research work performed by SDSC is being funded by Leidos, which specializes in national security, health, engineering, and cybersecurity solutions that protect the nation’s critical infrastructure. Leidos will fund the project and also provide its expertise developed from its Smart Grid Cybersecurity program. The company helps design and implement the smart grid through a comprehensive and secure transformation of information technology and communications infrastructure.
“Leidos is committed to partnering with top tier research organizations such as UC San Diego and SDSC to improve the state of cybersecurity for our critical infrastructure,” said Julie Taylor, senior vice president for cybersecurity at Leidos. The company employs more than 1,200 experts in cybersecurity and network defense, and has been a leader in the security market for over 30 years.
