Lancaster academics detect 1.6K industrial control devices globally to be infected with the Mirai malware and present at ACM eEnergy conference in Phoenix, AZ, USA


28 June 2019 15:31
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On Friday 28th June 2019, Dr Angelos Marnerides, SCC Lancaster (in collaboration with Dr Vasileios Giotsas, SCC Lancaster & Troy Mursch from Bad Packets LLC, Chicago) presented a paper at ACM eEnergy 2019 conference in Phoenix, AZ, USA. The conference deals with the convergence of computer networks and energy systems and discussed the Internet-wide detection of Industrial Control Devices that are infected with the Mirai virus.

The 2016 Mirai outbreak established an entirely new mindset in the history of large-scale Internet attacks. A plethora of Mirai-like variants have emerged in the last two years that are capable to infiltrate any type of device. In this paper, Angelos, Vasileios & Troy provide a 7-month retrospective analysis of Internet-connected energy systems that are infected by Mirai-like malware variants.

"By utilizing network measurements from several Internet vantage points, we demonstrate that a number of energy systems on a global scale were infected during the period of our observation. While past works have studied vulnerabilities and patching practises of ICS and energy systems, little information has been available on actual exploits of such vulnerabilities. Hence, we provide evidence that energy systems relying on ICS networks are often compromised by vulnerabilities in non-ICS devices (routers, servers and IoT devices) which provide foothold for lateral network attacks. Our work offers a first look in compromised energy systems by malware infections, and offers insights on the lack of proper security practices for systems that are increasingly dependent on internet services and more recently the IoT. In addition, we indicate that such systems were infected for relatively large periods, thus potentially remaining undetected by their corresponding organizational units"

The full paper is here "Identifying infected energy systems in the wild"

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