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Hydraulic Systems Security: Addressing Cyber Threats with DNA-Based Cryptography in Cloud-Integrated Control

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Gepubliceerd in:Hidraulica no. 3 (2025), p. 21-33
Hoofdauteur: Ţălu, Ştefan
Gepubliceerd in:
Hidraulica
Onderwerpen:
Cryptography
Internet of Things
Control systems
Distributed network protocols
Communication
Hydraulic equipment
Deoxyribonucleic acid > DNA
Signal processing
Hydraulic control
Firmware
Cybersecurity
Integrated control
Automation
Manufacturing
Energy consumption
Industrial electronics
Efficiency
Machine learning
Data integrity
Infrastructure
Energy industry
Sensors
Industrial Internet of Things
Distributed control systems
Ransomware
Denial of service attacks
Hydraulic systems
Algorithms
Industry 4.0
DNA
Hydraulics
Predictive maintenance
Economic
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Samenvatting:Hydraulic control systems, widely used in industrial automation, aerospace, and energy sectors, are increasingly integrated with cloud platforms and Internet of Things (IoT) technologies to enhance monitoring, predictive maintenance, and operational efficiency. However, this digital integration exposes hydraulic infrastructures to a wide range of cyberattacks, including denial-of-service (DoS), ransomware, and advanced persistent threats (APT). Existing cybersecurity solutions for industrial control systems (ICS) rely on conventional cryptographic algorithms such as Advanced Encryption Standard (AES) and Rivest-Shamir- Adleman, which may be resource-intensive and vulnerable in constrained environments. This article explores cybersecurity challenges in hydraulic systems, analyzes real-world attack scenarios, and introduces Deoxyribonucleic Acid (DNA)-based cryptography as a novel, lightweight, and biologically inspired approach for securing cloud-integrated hydraulic infrastructures. Comparative evaluations are shown between DNA-based schemes and lightweight cryptography standards, highlighting performance, scalability, and resistance to classical attacks. Experimental insights, supported by graphical models and tabulated data, demonstrate the feasibility of DNA-based approaches for future-proofing hydraulic cybersecurity.
ISSN:1453-7303
2343-7707
Bron:Advanced Technologies & Aerospace Database