Article: Certificate-less key secure communication protocol for internet of things based on smart contracts Journal: International Journal of Information and Computer Security (IJICS) 2025 Vol.28 No.4 pp.403 - 423 Abstract: With the rise of the internet of things (IoT), ensuring operational efficiency and security for resource-constrained nodes has become crucial. This paper proposes two certificate-less key agreement protocols based on confidential message entanglement, addressing limitations of traditional key management such as certificate reliance and high computational costs. A smart contract-driven, dynamically switchable distributed key management framework is also introduced to enhance adaptability under varying attack frequencies. Simulation results indicate reduced communication and computational overhead. Protocols 1 and 2 show computational losses of 5.53 and 6.47, respectively, while smart contract-based scenarios range from 4.28 to 4.39. In smart agriculture applications, dynamic switching reduced overhead from 6.47 to 4.28, optimising performance by 33.84%. The research supports the development of lightweight, secure, and adaptable communication frameworks for IoT applications in smart cities, industrial monitoring, and telemedicine, offering strong theoretical and practical value. Inderscience Publishers - linking academia, business and industry through research

Title: Certificate-less key secure communication protocol for internet of things based on smart contracts

Authors: Shengqi Wu

Addresses: College of Information Engineering, Hangzhou Vocational and Technical College, Hangzhou, 310018, China

Abstract: With the rise of the internet of things (IoT), ensuring operational efficiency and security for resource-constrained nodes has become crucial. This paper proposes two certificate-less key agreement protocols based on confidential message entanglement, addressing limitations of traditional key management such as certificate reliance and high computational costs. A smart contract-driven, dynamically switchable distributed key management framework is also introduced to enhance adaptability under varying attack frequencies. Simulation results indicate reduced communication and computational overhead. Protocols 1 and 2 show computational losses of 5.53 and 6.47, respectively, while smart contract-based scenarios range from 4.28 to 4.39. In smart agriculture applications, dynamic switching reduced overhead from 6.47 to 4.28, optimising performance by 33.84%. The research supports the development of lightweight, secure, and adaptable communication frameworks for IoT applications in smart cities, industrial monitoring, and telemedicine, offering strong theoretical and practical value.

Keywords: internet of things; IoT; certificateless key negotiation protocol; secure communications; smart contracts; key management.

DOI: 10.1504/IJICS.2025.150031

International Journal of Information and Computer Security, 2025 Vol.28 No.4, pp.403 - 423

Received: 18 Feb 2025
Accepted: 14 Jun 2025
Published online: 21 Nov 2025 *

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Title: Certificate-less key secure communication protocol for internet of things based on smart contracts

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