Peer-to-Peer Networking and Applications

Erschienen in:

22.06.2024

An optimized secure cluster-based routing protocol for IoT-based WSN structures in smart agriculture with blockchain-based integrity checking

verfasst von: Ashutosh Kumar Rao, Kapil Kumar Nagwanshi, Manoj Kumar Shukla

Erschienen in: Peer-to-Peer Networking and Applications | Ausgabe 5/2024

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Abstract

Die Integration von WSN und intelligenter Landwirtschaft hat die landwirtschaftlichen Praktiken revolutioniert und Echtzeitüberwachung und datengesteuerte Entscheidungsfindung ermöglicht. Dieser Artikel befasst sich mit der entscheidenden Notwendigkeit eines fortschrittlichen und sicheren clusterbasierten Routing-Protokolls, das auf intelligente Landwirtschaft zugeschnitten ist. Bestehende Methoden stehen vor Herausforderungen in Bezug auf die Auswahl der KMU, den Energieverbrauch und die Lebensdauer des Netzwerks. Das vorgeschlagene Protokoll nutzt den auf Regenwürmern basierenden Optimierungsalgorithmus für die Hirschjagd (EW-DHOA) und die Distributed Fuzzy Cognitive Maps (DFCM) für die Auswahl der Schweiz. Es umfasst auch eine Blockchain-basierte Integritätsprüfung, um eine sichere Datenübertragung zu gewährleisten. Das Protokoll zielt darauf ab, den Energieverbrauch auszugleichen, die Lebensdauer des Netzwerks zu erhöhen und die Authentizität der Daten aufrechtzuerhalten. Die Forschungsergebnisse zeigen, dass Energieeffizienz, Sicherheit und Widerstandsfähigkeit im Vergleich zu bestehenden Techniken besser sind.

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Abstract

In the context of Internet of Things (IoT)-based Wireless Sensor Networks (WSNs) for smart agriculture, ensuring efficient resource utilization, prolonged network lifespan and robust security mechanisms is paramount. This paper addresses these challenges by introducing an optimized secure cluster-based routing protocol with blockchain. The algorithm initiates with node ID assignment, followed by the use of Distributed Fuzzy Cognitive Maps (DFCM) to select Cluster Heads (CHs) based on energy, proximity to the Base Station (BS) and neighbor count. DFCM aims for balanced CH distribution to optimize energy usage. The secure routing protocol, employing Earthworm-based Deer Hunting Optimization Algorithm (EW-DHOA) and blockchain, ensures reliable data transmission. Through extensive comparative analyses with existing techniques, including GA-PSO, CI-ROA, ACI-GSO and P-WWO, our approach consistently outperforms in critical parameters. At varying node densities, the proposed method demonstrates a substantial improvement in network lifetime, achieving a 60% increase over GA-PSO and maintaining a superior average of 3200 rounds. Energy consumption is notably reduced, with a 33.3% improvement compared to GA-PSO at a density of 100 nodes. The packet delivery ratio reaches 98%, showcasing a 4% enhancement over the best-performing existing technique P-WWO. Throughput at a density of 500 nodes achieves an impressive 33.3% increase, reaching 0.8 Mbps. Notably, our methodology excels in preserving active nodes, sustaining a network lifetime of 66.7% more than competing techniques at the 3500th round. The proposed approach demonstrates a higher detection rate, ranging from 75% to 90% and exhibits a significantly higher convergence rate. Therefore, our Optimized Secure Cluster-Based Routing Protocol with Blockchain-Based Integrity Checking presents a comprehensive and superior solution for enhancing the efficiency, resilience and security of WSNs in smart agriculture.

Vorheriger Artikel A secure location management scheme in an LEO-satellite network with dual-mobility

Nächster Artikel Verifiable privacy-preserving cox regression from multi-key fully homomorphic encryption

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Titel: An optimized secure cluster-based routing protocol for IoT-based WSN structures in smart agriculture with blockchain-based integrity checking
verfasst von: Ashutosh Kumar Rao
Kapil Kumar Nagwanshi
Manoj Kumar Shukla
Publikationsdatum: 22.06.2024
Verlag: Springer US
Erschienen in: Peer-to-Peer Networking and Applications / Ausgabe 5/2024
Print ISSN: 1936-6442
Elektronische ISSN: 1936-6450
DOI: https://doi.org/10.1007/s12083-024-01748-1

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Fuzzy logic and CPSO-optimized key management for secure communication in decentralized IoT networks: A lightweight solution

Efficient non-interactive zero-knowledge proofs for quantum range verification in blockchain

An IMOA DV-Hop localization algorithm in WSN based on hop count and hop distance correction

Temporary relay: A more flexible way to cross chains

Incentive minimization using energy and buffer efficient routing protocol over Blockchain enabled DTN

A blockchain-based privacy protecting framework with multi-channel access control model for asset trading