Examining Multi-Layer Security Architectures for Inter-Vehicle Communications and Drone-Routed Road Insights
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Abstract
The rapid advancement of intelligent transportation systems (ITS) has fueled the development of inter-vehicle communications (IVC) and drone-assisted road monitoring. These technologies promise to improve road safety, traffic management, and environmental efficiency. However, their reliance on wireless communications introduces significant security challenges, including eavesdropping, spoofing, and denial-of-service (DoS) attacks. This paper examines the implementation of multi-layer security architectures to mitigate such vulnerabilities in IVC and drone-routed road insights. Specifically, we analyze how cryptographic protocols, intrusion detection systems (IDS), and blockchain technology can create a robust framework for secure communication. Additionally, we evaluate the performance trade-offs associated with implementing such security measures, focusing on latency, bandwidth overhead, and computational requirements. Simulation and theoretical models provide insights into the effectiveness of proposed architectures in real-world scenarios. By integrating multi-layered security, stakeholders in ITS can ensure reliability, scalability, and resilience against emerging threats, paving the way for widespread adoption of secure IVC and drone-assisted solutions.