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Defending against cyber-attacks in building HVAC systems through energy performance evaluation using a physics-informed dynamic Bayesian network (PIDBN)

Dongyu Chen, Wei Sun, Yiyuan Qiao

2025Energy12 citationsDOIOpen Access PDF

Abstract

The increasing use of Internet communications in smart building automation systems (BAS) has escalated the risk of cyber-attacks targeting HVAC systems, which are primary energy consumers. This paper introduces a defensive strategy based on energy performance evaluation, extending beyond conventional network-based measures. At its core is a physics-informed dynamic Bayesian network (PIDBN) for cyber-attack detection and diagnostics (CADD), which integrates the physical building model into the dynamic Bayesian framework . This approach enhances real-time detection by balancing data-driven processes with physics-based modeling, reducing reliance on extensive data and complex model development. The PIDBN-CADD framework is validated through simulations in Dymola software and a real-world demonstration in the Research I (R1) building. Compared to conventional fault detection and diagnostics (FDD) methods, such as air handling unit performance assessment rules (APAR), PIDBN-CADD excels in detecting sensor and control signal faults caused by cyber-attacks. Specifically, PIDBN-CADD achieves a correct alarm rate (CAR) of 94.4% with a true positive rate (TPR) of 48.2% for sensor attacks, and a 100% CAR with 78.9% TPR for control signal attacks, significantly outperforming APAR-based FDD. This paper is among the first to introduce a physics-informed Bayesian network, providing robust and real-time protection against emerging cyber threats in smart buildings.

Topics & Concepts

HVACDynamic Bayesian networkBayesian networkBayesian probabilityEnergy (signal processing)Computer scienceComputer securityEngineeringPhysicsArtificial intelligenceMechanical engineeringAir conditioningQuantum mechanicsSmart Grid Security and ResilienceBuilding Energy and Comfort OptimizationEnergy Efficiency and Management
Defending against cyber-attacks in building HVAC systems through energy performance evaluation using a physics-informed dynamic Bayesian network (PIDBN) | Litcius