Enhancing cybersecurity in smart cities: A blockchain-based framework  for securing IoT data

Mehdi Houichi ,Faouzi Jaidi ,Adel Bouhoula

doi:10.24294/jipd11733

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Enhancing cybersecurity in smart cities: A blockchain-based framework for securing IoT data

Mehdi Houichi

Faouzi Jaidi

Adel Bouhoula

Journal of Infrastructure Policy and Development 2025, 9(3); https://doi.org/10.24294/jipd11733

Submitted：03 May 2025

Accepted：16 Oct 2025

Published：06 Nov 2025

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Abstract

The rapid expansion of smart cities has led to the widespread deployment of Internet of Things (IoT) devices for real-time data collection and urban optimization. However, these interconnected systems face critical cybersecurity risks, including data tampering, unauthorized access, and privacy breaches. This paper proposes a blockchain-based framework designed to enhance the security, integrity, and resilience of IoT data in smart city environments. Leveraging a private blockchain, the system ensures decentralized, tamper-proof data storage, and transaction verification through digital signatures and a lightweight Proof of Work consensus mechanism. Smart contracts are employed to automate access control and respond to anomalies in real time. A Python-based simulation demonstrates the framework’s effectiveness in securing IoT communications. The system supports rapid transaction validation with minimal latency and enables timely detection of anomalous patterns through integrated machine learning. Evaluations show that the framework maintains consistent performance across diverse smart city components such as transportation, healthcare, and building security. These results highlight the potential of the proposed solution to enable secure, scalable, and real-time IoT ecosystems for modern urban infrastructures.

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