Biblio

Filters: Author is Grijalva, Santiago  [Clear All Filters]
2023-04-14
Paul, Shuva, Chen, Yu-Cheng, Grijalva, Santiago, Mooney, Vincent John.  2022.  A Cryptographic Method for Defense Against MiTM Cyber Attack in the Electricity Grid Supply Chain. 2022 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT). :1–5.
Critical infrastructures such as the electricity grid can be severely impacted by cyber-attacks on its supply chain. Hence, having a robust cybersecurity infrastructure and management system for the electricity grid is a high priority. This paper proposes a cyber-security protocol for defense against man-in-the-middle (MiTM) attacks to the supply chain, which uses encryption and cryptographic multi-party authentication. A cyber-physical simulator is utilized to simulate the power system, control system, and security layers. The correctness of the attack modeling and the cryptographic security protocol against this MiTM attack is demonstrated in four different attack scenarios.
ISSN: 2472-8152
2023-06-09
Keller, Joseph, Paul, Shuva, Grijalva, Santiago, Mooney, Vincent J..  2022.  Experimental Setup for Grid Control Device Software Updates in Supply Chain Cyber-Security. 2022 North American Power Symposium (NAPS). :1—6.
Supply chain cyberattacks that exploit insecure third-party software are a growing concern for the security of the electric power grid. These attacks seek to deploy malicious software in grid control devices during the fabrication, shipment, installation, and maintenance stages, or as part of routine software updates. Malicious software on grid control devices may inject bad data or execute bad commands, which can cause blackouts and damage power equipment. This paper describes an experimental setup to simulate the software update process of a commercial power relay as part of a hardware-in-the-loop simulation for grid supply chain cyber-security assessment. The laboratory setup was successfully utilized to study three supply chain cyber-security use cases.
2023-02-17
Hutto, Kevin, Grijalva, Santiago, Mooney, Vincent.  2022.  Hardware-Based Randomized Encoding for Sensor Authentication in Power Grid SCADA Systems. 2022 IEEE Texas Power and Energy Conference (TPEC). :1–6.
Supervisory Control and Data Acquisition (SCADA) systems are utilized extensively in critical power grid infrastructures. Modern SCADA systems have been proven to be susceptible to cyber-security attacks and require improved security primitives in order to prevent unwanted influence from an adversarial party. One section of weakness in the SCADA system is the integrity of field level sensors providing essential data for control decisions at a master station. In this paper we propose a lightweight hardware scheme providing inferred authentication for SCADA sensors by combining an analog to digital converter and a permutation generator as a single integrated circuit. Through this method we encode critical sensor data at the time of sensing, so that unencoded data is never stored in memory, increasing the difficulty of software attacks. We show through experimentation how our design stops both software and hardware false data injection attacks occurring at the field level of SCADA systems.
2020-09-08
Chen, Yu-Cheng, Gieseking, Tim, Campbell, Dustin, Mooney, Vincent, Grijalva, Santiago.  2019.  A Hybrid Attack Model for Cyber-Physical Security Assessment in Electricity Grid. 2019 IEEE Texas Power and Energy Conference (TPEC). :1–6.
A detailed model of an attack on the power grid involves both a preparation stage as well as an execution stage of the attack. This paper introduces a novel Hybrid Attack Model (HAM) that combines Probabilistic Learning Attacker, Dynamic Defender (PLADD) model and a Markov Chain model to simulate the planning and execution stages of a bad data injection attack in power grid. We discuss the advantages and limitations of the prior work models and of our proposed Hybrid Attack Model and show that HAM is more effective compared to individual PLADD or Markov Chain models.
2020-07-06
Xiong, Leilei, Grijalva, Santiago.  2019.  N-1 RTU Cyber-Physical Security Assessment Using State Estimation. 2019 IEEE Power Energy Society General Meeting (PESGM). :1–5.
Real-time supervisory control and data acquisition (SCADA) systems use remote terminal units (RTUs) to monitor and manage the flow of power at electrical substations. As their connectivity to different utility and private networks increases, RTUs are becoming more vulnerable to cyber-attacks. Some attacks seek to access RTUs to directly control power system devices with the intent to shed load or cause equipment damage. Other attacks (such as denial-of-service) target network availability and seek to block, delay, or corrupt communications between the RTU and the control center. In the most severe case, when communications are entirely blocked, the loss of an RTU can cause the power system to become unobservable. It is important to understand how losing an RTU impacts the system state (bus voltage magnitudes and angles). The system state is determined by the state estimator and serves as the input to other critical EMS applications. There is currently no systematic approach for assessing the cyber-physical impact of losing RTUs. This paper proposes a methodology for N-1 RTU cyber-physical security assessment that could benefit power system control and operation. We demonstrate our approach on the IEEE 14-bus system as well as on a synthetic 200-bus system.
2020-09-08
Chen, Yu-Cheng, Mooney, Vincent, Grijalva, Santiago.  2019.  A Survey of Attack Models for Cyber-Physical Security Assessment in Electricity Grid. 2019 IFIP/IEEE 27th International Conference on Very Large Scale Integration (VLSI-SoC). :242–243.
This paper surveys some prior work regarding attack models in a cyber-physical system and discusses the potential benefits. For comparison, the full paper will model a bad data injection attack scenario in power grid using the surveyed prior work.