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- Title
TMAP: A Threat Modeling and Attack Path Analysis Framework for Industrial IoT Systems (A Case Study of IoM and IoP).
- Authors
Saurabh, Kumar; Gajjala, Deepak; Kaipa, Krishna; Vyas, Ranjana; Vyas, O. P.; Khondoker, Rahamatullah
- Abstract
Industrial cyber-physical systems (ICPS) are gradually integrating Information Technology (IT) and automating industrial processes, leading systems to become more vulnerable to malicious actors. Thus, to deploy secure Industrial Control and Production Systems (ICPS) in smart factories, cyber threats and risks must be addressed. To identify all possible threats, "Threat Modeling" is a promising solution. Despite the existence of numerous methodological solutions for threat modeling in Cyber-Physical Systems (CPS), current approaches are ad hoc and inefficient in providing clear insights to researchers and organizations involved in Industrial Internet of Things (IIoT) technologies. These approaches lack a comprehensive analysis of cyber threats and fail to facilitate effective path analysis across the ICPS lifecycle, incorporating smart manufacturing technologies and tools. To address these gaps, a novel quantitative threat modeling approach is proposed, aiming to identify probable attack vectors, assess the path of attacks, and evaluate the magnitude of each vector. This manuscript also explains the execution of the proposed approach through two case studies: the industrial manufacturing line, referred to as the Internet of Manufacturing (IoM), and the power industry, known as the Internet of Production (IoP).
- Subjects
INDUSTRIALISM; INFORMATION technology; CYBERTERRORISM; CYBER physical systems; INTERNET of things; PATH analysis (Statistics)
- Publication
Arabian Journal for Science & Engineering (Springer Science & Business Media B.V. ), 2024, Vol 49, Issue 9, p13163
- ISSN
2193-567X
- Publication type
Article
- DOI
10.1007/s13369-023-08600-3