English

IoT-enabled Distributed Cyber-attacks on Transmission and Distribution Grids

Systems and Control 2017-06-26 v1

Abstract

The Internet of things (IoT) will make it possible to interconnect and simultaneously control distributed electrical loads. Various technical and regulatory concerns have been raised that IoT-operated loads are being deployed without appropriately considering and systematically addressing potential cyber-security challenges. Hence, one can envision a hypothetical scenario when an ensemble of IoT-controlled loads can be hacked with malicious intentions of compromising operations of the electrical grid. Under this scenario, the attacker would use geographically distributed IoT-controlled loads to alternate their net power injections into the electrical grid in such a way that may disrupt normal grid operations. This paper presents a modeling framework to analyze grid impacts of distributed cyber-attacks on IoT-controlled loads. This framework is used to demonstrate how a hypothetical distributed cyber-attack propagates from the distribution electrical grid, where IoT-controlled loads are expected to be installed, to the transmission electrical grid. The techno-economic interactions between the distribution and transmission electrical grids are accounted for by means of bilevel optimization. The case study is carried out on the modified versions of the 3-area IEEE Reliability Test System (RTS) and the IEEE 13-bus distribution feeder. Our numerical results demonstrate that the severity of such attacks depends on the penetration level of IoT-controlled loads and the strategy of the attacker.

Keywords

Cite

@article{arxiv.1706.07485,
  title  = {IoT-enabled Distributed Cyber-attacks on Transmission and Distribution Grids},
  author = {Yury Dvorkin and Siddharth Garg},
  journal= {arXiv preprint arXiv:1706.07485},
  year   = {2017}
}

Comments

Accepted for publication in the Proceedings of the 49th North American Power Symposium (NAPS), 2017

R2 v1 2026-06-22T20:27:11.839Z