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Blockchain-Based Framework for Secure Communication in Smart IoT Systems

Chetan Chauhan, Pradeep Laxkar, Ram Kumar Solanki, S. R. Parihar, Anand Singh Rajawat, Amit Gadekar

2025Journal of Computers Mechanical and Management8 citationsDOIOpen Access PDF

Abstract

Blockchain technology has emerged as a promising paradigm for addressing the inherent vulnerabilities of Internet of Things (IoT) networks. Conventional IoT systems rely on centralized architectures that are prone to single points of failure, data breaches, and unauthorized access. This paper presents a blockchain-enabled secure communication framework for smart IoT systems that integrates symmetric encryption, distributed ledger validation, and smart-contract–driven access control. The proposed model is formalized through mathematical definitions of encryption, hashing, and contract execution, and validated using simulation tools such as NS-3 and Ethereum-based test environments. Comparative results demonstrate that the framework significantly improves communication security, data integrity, and resistance to cyberattacks while reducing latency and energy consumption relative to traditional models. The findings suggest that blockchain integration provides a scalable, resilient, and efficient foundation for trustworthy IoT communication in smart environments.

Topics & Concepts

Computer scienceInternet of ThingsComputer securityTrustworthinessLatency (audio)Secure communicationEnergy consumptionComputer networkSmart gridCommunications systemModels of communicationLow latency (capital markets)Distributed ledgerDistributed computingTelecommunications networkCommunications protocolWireless sensor networkThe InternetServerInformation and Communications TechnologyTrusted third partyInformation privacyEfficient energy useBlockchain Technology Applications and SecurityIoT and Edge/Fog ComputingUser Authentication and Security Systems
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