Abstract
ABSTRACTModern manufacturing systems utilise cyber-physical systems that are interconnected through an Internet of Things (IoT) network. An IoT infrastructure enables cyber-physical systems to communicate with each other and coordinate the manufacturing process autonomously with minimal human assistance. A significant challenge for cyber-physical systems is cybersecurity. Adversaries can exploit weaknesses in the IoT security infrastructure to gain remote access to the system and modify or damage manufacturing processes and/or products. Due to the autonomous nature of cyber-physical systems, cyberattacks can go unnoticed by the users for a long time, further compounding the problem. Attacks on cyber-physical systems are on the rise, and manufacturers need to address this problem. In this article, we discuss how game-theoretic thinking and modelling can help to identify a manufacturer’s cyber vulnerabilities and enhance its security. We consider various attack and defence scenarios and analyse each through the corresponding game-theoretic model. Our approach and findings can be used to improve the effectiveness and efficiency of security strategies for cyber-physical manufacturing systems.
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