For hackers, the U.S. energy grid is a treasure trove of classified information with vast potential for profit and mayhem. To be effective, the power grid’s protection system has to be a bit like a hacker: highly intelligent, agile and able to learn rapidly.
Milos Manic, Ph.D., professor of computer science and director of VCU’s Cybersecurity Center, along with colleagues at the Idaho National Laboratory (INL), has developed a protection system that improves its own effectiveness as it watches and learns from those trying to break into the grid. The team’s Autonomic Intelligent Cyber Sensor (AICS) received an R&D 100 Award for 2018, a worldwide recognition of the year’s most promising inventions and innovations.
Computer Science professor Milos Manic, Ph.D. [View Image]
“An underground war of many years”
Manic calls foreign state actors’ ongoing attempts to infiltrate the power grid — and efforts to thwart them — “an underground war of many years.” These criminals aim to enter critical infrastructures such as energy systems to disrupt or compromise codes, screens login information and other assets for future attacks. The nightmare result would be an infrastructure shutdown in multiple locations, a so-called “Black Sky” event that would erase bank accounts, disable cell phones and devastate the economy. In that scenario, engineers would have less than 72 hours to restore the grid before batteries, food supplies, medicine and water run out.
With high stakes and increasingly sophisticated attackers, artificial intelligence and machine learning are key to respond to the challenges of protecting the grid’s interconnected systems, according to Manic.
“Hackers are much smarter than in the past. They don’t necessarily look at one particular component of the system,” Manic said. “Often they can fool the system by taking control of the behavior of two different components to mask their attack on a third.”
A nervous system for the power grid
Using artificial intelligence algorithms, AICS can look holistically at an array of interconnected systems including the electrical grid and adapt continually as attacks are attempted. It is inspired by the body’s autonomic nervous system, the largely unconscious functions that govern breathing, circulation and fight-or-flight responses. Once installed, AICS acts as a similar “nervous system” for a power grid, silently monitoring all of its components for unusual activity — and learning to spot threats that were unknown when it was first installed.
To “hack” the hacker, AICS often deploys honeypots, shadow systems that appear to be legitimate parts of the grid but that actually divert, trap and quarantine malicious actors. These honeypots allow asset owners to gather information that can help identify both a threat and a potentially compromised system.
“Honeypots can make a hacker think he has broken into a real system,” Manic said. “But if the hacker sees that the ‘system’ is not adequately responding, he knows it’s a honeypot.” For this reason, the system’s honeypots are also intelligently updating themselves.
Manic developed AICS with his INL colleagues Todd Vollmer, Ph.D., and Craig Rieger, Ph.D. Vollmer was Manic’s Ph.D. student at the University of Idaho. The AICS team formed eight years ago, and Manic continued to work on the project when he came to VCU in 2014. He holds a joint appointment with INL.
The U.S. Department of Energy is a major funder of the project. Manic, Rieger and Vollmer plan to continue working to develop future iterations of AICS to protect other technologies.