Long-Term Research
CREDC identifies and addresses critical, long-term issues that impact Energy Delivery System (EDS) cybersecurity and cyber-resiliency, focusing on the evolving adversary and technological landscape.
Related Research Activities
- A Conceptual Framework for the Assessment of Integrated Energy Storage Resources
- Adaptive and Proactive Security Assessment on Energy Delivery Systems
- Advanced Networking for Reliable Energy Delivery Systems
- Advanced Networking Technology for Energy Delivery Systems
- Anomaly Detection for Securing Communications in Advanced Metering Infrastructure
- Assured Cyber Supply Chain Provenance Using Permissioned Blockchain
- Creating an EDS Cybersafety Analysis Discipline
- Cyber Resilience Metrics for Bulk Power Systems
- Data Privacy in Energy Delivery Systems
- Data Sharing for Energy Delivery Systems
- Evaluating Effectiveness of an Embedded System Endpoint Security Technology on EDS OT: Defeating the Hackers of IIoT Devices
- Federated Simulation for Development of Improved Incident Detection and Management
- Forecasting Cybersecurity Incidents in Energy Delivery Systems
- Implementation of Resilience via Operational Controls
- Increasing Cyber-Resilience of Large-Scale and Long-Lived Energy Delivery Infrastructure (EDI)
- Increasing Security in a Resilient Energy Delivery Infrastructure through the Analysis of Vulnerability and Exploit Markets
- Low-cost, Scalable and Practical Post Quantum Key Distribution
- Metrics and Tools for Measuring Cyber Resiliency of Electric Grids
- Modeling Security Risk to and Resiliency of EDS Using Software-Defined Networks and Robust Networked Control Systems
- Network Function Insertion for Reliable and Secure Control Messaging Over Commodity Transport
- Online, Context-aware, Intelligent Anomaly Detection, Causality and Consequence Analysis, and Response Suggestion for Supervisory Control and Data Acquisition (SCADA) Systems in Energy Distribution Systems
- PreventOTPhysDamage: Anticipating and Preventing Catastrophic OT Physical Damage Through System Thinking Analysis
- Proactive Response Strategy for Energy Delivery Systems
- Quantification of Cyber-Physical Security Risk and Probability of Rare Failures
- Real-time Cyber Analysis to Improve Operational Response to a Cyber Attack
- Real-time Situational Awareness of Risk to EDS To Cyber Attack
- Reliability and Cyber-Physical Threat Model Generation from a Standards Influenced Ontology
- REMEDYS: Research Exploring Malware in Energy DeliverY Systems
- Resilient Framework with Authentication, Key Management, and Data Collection for Energy Sensors in Energy Distribution Networks
- Robust and Secure GPS-based Timing for Power Systems
- Secure Cloud SCADA for EDS
- Secure, Dynamic Interoperability of Microgrid Assets
- Security Gaps due to Coupling of Energy Delivery Sub-systems
- Situational Awareness Framework for Cyber Security Event Prediction and Quantification (SAFFRON)
- Supporting Security with Advanced Multimodal Grid Data Analytics
- Synchrophasor Data Quality
- Towards Attack Resilient Data Analytics for Power Grid Operations
Related Publications
- A Learning Scheme for Microgrid Reconnection
- A Security Framework for SDN-enabled Smart Power Grids
- A Systems Theoretic Approach to the Security Threats in Cyber Physical Systems Applied to Stuxnet
- AliDrone: Enabling Trustworthy Proof-of-Alibi for Commercial Drone Compliance
- An Approach to Incorporating Uncertainty in Network Security Analysis
- An Emulation Environment for Prototyping PMU Data Errors
- An Interactive, Extensible Environment for Power System Simulation on the PMU Time Frame with a Cyber Security Application
- An Internet-Wide View of ICS Devices
- Analysis of In-order Packet Delivery Network Policy Enforcement Function
- Analysis of Stepping Stone Attacks in Dynamic Vulnerability Graphs
- Analyzing Impact of Communication Network Topologies on Reconfiguration of Networked Microgrids
- Anomaly Detection Using Optimally-Placed micro-PMU Sensors in Distribution Grids
- Attack Induced Common-Mode Failures on PLC-based Safety System in a Nuclear Power Plant
- Attack Resilient GPS-based Timing for PMUs using Multi-Receiver Direct Time Estimation
- Automated Anomaly Detection in Distribution Grids Using Micro-PMU Measurements
- Consensus-Based Intrusion Detection for the Electric Power Grid Control System
- Curing the Vulnerable Parser: Design Patterns for Secure Input Handling
- Cyber Resilience Metrics for Bulk Power Systems
- Cyber-Air-Gapped Detection of Controller Attacks through Physical Interdependencies (2016)
- Cyber-Air-Gapped Detection of Controller Attacks through Physical Interdependencies (2017)
- Cyber-Physical Resilience: Definition and Assessment Metric
- Data Injection Attacks in Randomized Gossiping
- Decentralized Dynamic Optimization for Power Network Voltage Control
- Dependable End-to-End Delay Constraints for Real-Time Systems using SDN
- Detecting Manipulation of Power Distribution System Control Devices
- Detecting PLC Control Corruption via On-Device Runtime Verification
- Distributed Secondary Control for Isolated Microgrids under Malicious Attacks
- Diversity Modeling to Evaluate Security of Multiple SDN Controllers
- Dynamic decentralized voltage control for power distribution networks
- EDMAND: Edge-Based Multi-Level Anomaly Detection for SCADA Networks
- EDSGuard: Enforcing Network Security Requirements for Energy Delivery Systems
- Efficient Monte Carlo Evaluation of SDN Resiliency
- End-to-End Delay Guarantees for Real-Time Systems using SDN
- Enhancing Microgrid Resiliency Against Cyber Vulnerabilities
- Exploring Security Metrics for Electric Grid Infrastructures Leveraging Attack Graphs
- F-DETA: A Framework for Detecting Electricity Theft Attacks in Smart Grids
- Going Dark: A Retrospective on the North American Blackout of 2038
- GPS Spoofer Localization for PMUs using Multi-Receiver Direct Time Estimation
- Implementing a vertically hardened DNP3 control stack for power applications
- Improving Bulk Power System Resilience by Ranking Critical Nodes in the Vulnerability Graph
- Input Handling Done Right: Building Hardened Parsers using Language-theoretic Security
- Interfacing Techniques in Testbed for Cyber-Physical Security Analysis of the Electric Power Grid
- Invisible and Forgotten: Zero-Day Blooms in the IoT
- Learning Process Behavioral Baselines for Anomaly Detection
- Learning Schemes for Power System Planning and Control
- Load Oscillating Smart Meter Attack
- Low-Resolution Fault Localization Using Phasor Measurement Units with Community Detection
- Micro Synchrophasor-Based Intrusion Detection in Automated Distribution Systems: Towards Critical Infrastructure Security
- Modeling Cost of Countermeasures in Software Defined Networking-enabled Energy Delivery System
- Multi-agent System for Detecting False Data Injection Attacks Against the Power Grid
- Multi-Receiver GPS-based Direct Time Estimation for PMUs
- Online Thevenin Parameter Tracking Using Synchrophasor Data
- OntoEDS: Protecting Energy Delivery Systems by Collaboratively Analyzing Security Requirements
- Optimal Electricity Pricing for Societal Infrastructure Systems
- Peer-to-peer Detection of DoS Attacks on City-Scale IoT Mesh Networks
- PhasorSec: Protocol Security Filters for Wide Area Measurement Systems
- PulseSS: A Pulse-Coupled Synchronization and Scheduling Protocol for Clustered Wireless Sensor Networks
- Real-time Detection of Malicious PMU Data
- Reinventing the Privilege Drop: How Principled Preservation of Programmer Intent Would Prevent Security Bugs
- Resilient Data Collection in Refinery Sensor Networks Under Large Scale Failures
- Resilient Data Collection Protocol with In-Network Processing for Oil and Gas Refinery Networks
- Robust GPS-Based Direct Timing Estimation for PMUs
- Runtime semantic security analysis to detect and mitigate control-related attacks in power grids
- Safety-critical Cyber-physical Attacks: Analysis, Detection, and Mitigation
- Self-Healing Cyber Resilient Framework for Software Defined Networking-enabled Energy Delivery System
- Simultaneous Localization of Multiple Jammers and Receivers Using Probability Hypothesis Density
- Software Defined Networking enabled Resilience for IEC 61850-based Substation Communication Systems
- TEDDI: Tamper Event Detection on Distributed Cyber-Physical Systems
- The Seven Turrets of Babel: A Taxonomy of LangSec Errors and How to Expunge Them
- Towards A Verified Complex Protocol Stack in a Production Kernel: Methodology and Demonstration
- Towards Adaptive and Proactive Security Assessment for Energy Delivery Systems
- Transmission and Distribution Co-Simulation with Possible Distribution Loops
Related Stories
- Bhamidipati recognized for developing method to locate attackers of the power grid
- Bhamidipati won best presentation award on improving power grid security and reliability through GPS timing
- CREDC researchers develop methods to analyze cyber resilience of power systems
- CREDC researchers to leverage blockchain to protect power grid supply chain
- CREDC Students win 2nd best paper award at NAPS
- Hahn builds tools to monitor the security and understand the vulnerability of the power grid
- Krishna recognized as a 2018 Siebel Scholar