AI-enhanced fault-tolerant control and security in transportation and logistics systems: addressing physical and cyber threats

Hajar Fatorachian; Hadi Kazemi

doi:10.20517/ces.2024.35

Complex Engineering Systems ›› 2024, Vol. 4 ›› Issue (3) :17 DOI: 10.20517/ces.2024.35

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AI-enhanced fault-tolerant control and security in transportation and logistics systems: addressing physical and cyber threats

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Abstract

Transportation and logistics systems are becoming increasingly complex and critical to modern infrastructure. This paper proposes a novel AI-enhanced fault-tolerant control framework to address the dual challenges of physical malfunctions and cyber threats. By leveraging advanced machine learning algorithms and real-time data analytics, the proposed methodology aims to enhance the reliability, safety, and security of transportation and logistics systems. This research explores the foundations and practical implementations of AI-driven anomaly detection, predictive maintenance, and autonomous response systems. The findings demonstrate significant improvements in system resilience and robustness, making a substantial contribution to the field of intelligent transportation management.

Keywords

AI-enabled supply chain / predictive maintenance / cybersecurity in logistics / anomaly detection / fault-tolerant control

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Hajar Fatorachian, Hadi Kazemi. AI-enhanced fault-tolerant control and security in transportation and logistics systems: addressing physical and cyber threats. Complex Engineering Systems, 2024, 4(3): 17 DOI:10.20517/ces.2024.35

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