| Title | Machine Learning Enabled Secure Collection of Phasor Data in Smart Power Grid Networks |
| Publication Type | Conference Paper |
| Year of Publication | 2020 |
| Authors | Lalouani, Wassila, Younis, Mohamed |
| Conference Name | 2020 16th International Conference on Mobility, Sensing and Networking (MSN) |
| Date Published | dec |
| Keywords | Communication system security, composability, False Data Injection, machine learning, Metrics, phasor measurement units, Phasor networks, power grid vulnerability, power grid vulnerability analysis, Predictive sampling, pubcrawl, Recurrent Neural Networks (RNN), replay attack, Resiliency, Sensors, Smart grids, Wireless communication, Wireless sensor networks |
| Abstract | In a smart power grid, phasor measurement devices provide critical status updates in order to enable stabilization of the grid against fluctuations in power demands and component failures. Particularly the trend is to employ a large number of phasor measurement units (PMUs) that are inter-networked through wireless links. We tackle the vulnerability of such a wireless PMU network to message replay and false data injection (FDI) attacks. We propose a novel approach for avoiding explicit data transmission through PMU measurements prediction. Our methodology is based on applying advanced machine learning techniques to forecast what values will be reported and associate a level of confidence in such prediction. Instead of sending the actual measurements, the PMU sends the difference between actual and predicted values along with the confidence level. By applying the same technique at the grid control or data aggregation unit, our approach implicitly makes such a unit aware of the actual measurements and enables authentication of the source of the transmission. Our approach is data-driven and varies over time; thus it increases the PMU network resilience against message replay and FDI attempts since the adversary's messages will violate the data prediction protocol. The effectiveness of approach is validated using datasets for the IEEE 14 and IEEE 39 bus systems and through security analysis. |
| DOI | 10.1109/MSN50589.2020.00091 |
| Citation Key | lalouani_machine_2020 |
Machine Learning Enabled Secure Collection of Phasor Data in Smart Power Grid Networks