Litcius/Paper detail

A stacked autoencoder‐based convolutional and recurrent deep neural network for detecting cyberattacks in interconnected power control systems

Gianni D’Angelo, Francesco Palmieri

2021International Journal of Intelligent Systems21 citationsDOIOpen Access PDF

Abstract

Modern interconnected power grids are a critical target of many kinds of cyber-attacks, potentially affecting public safety and introducing significant economic damages. In such a scenario, more effective detection and early alerting tools are needed. This study introduces a novel anomaly detection architecture, empowered by modern machine learning techniques and specifically targeted for power control systems. It is based on stacked deep neural networks, which have proven to be capable to timely identify and classify attacks, by autonomously eliciting knowledge about them. The proposed architecture leverages automatically extracted spatial and temporal dependency relations to mine meaningful insights from data coming from the target power systems, that can be used as new features for classifying attacks. It has proven to achieve very high performance when applied to real scenarios by outperforming state-of-the-art available approaches.

Topics & Concepts

Computer scienceAutoencoderDeep learningAnomaly detectionDependency (UML)Artificial intelligenceConvolutional neural networkArchitectureIndustrial control systemControl (management)Machine learningArtVisual artsNetwork Security and Intrusion DetectionSmart Grid Security and ResilienceAnomaly Detection Techniques and Applications