Role inference + anomaly detection = situational awareness in bacnet networks

Abstract

In smart buildings, cyber-physical components (e.g., controllers, sensors, and actuators) communicate with each other using network protocols such as BACnet. Many of these devices are now connected to the Internet, enabling attackers to exploit vulnerabilities on protocols and devices to attack buildings. Situational awareness and intrusion detection are thus critical to provide operators with a clear and dynamic picture of their network, and to allow them to react to threats and attacks. Due to Smart Buildings being relatively dynamic and heterogeneous environments, situational awareness further needs to rapidly adapt to the appearance of new devices, and to provide enough context and information to understand a device’s behavior. In this paper, we propose a novel approach to situational awareness that leverages a combination of learning and knowledge of possible role devices. Specifically, we introduce a role-based situational awareness and intrusion detection system to monitor BACnet building automation networks. The system discovers devices, classifies them according to functional roles and detects deviations from the assigned roles. To validate our approach, we use a simulated dataset generated from a BACnet testbed, as well as a real-world dataset coming from the building network of a Dutch university.