Edge computing is swiftly gaining traction and is being standardised by the European Telecommunications Standards Institute(ETSI)as Multi-access Edge Computing(MEC).Simultaneously,oneM2M has been actively developing s...Edge computing is swiftly gaining traction and is being standardised by the European Telecommunications Standards Institute(ETSI)as Multi-access Edge Computing(MEC).Simultaneously,oneM2M has been actively developing standards for dynamic data management and IoT services at the edge,particularly for applications that require real-time support and security.Integrating MEC and oneM2M offers a unique opportunity to maximize their individual strengths.Therefore,this article proposes a framework that integrates MEC and oneM2M standard platforms for IoT applications,demonstrating how the synergy of these architectures can leverage the geographically distributed computing resources at base stations,enabling efficient deployment and added value for time-sensitive IoT applications.In addition,this study offers a concept of potential interworking models between oneM2M and the MEC architectures.The adoption of these standard architectures can enable various IoT edge services,such as smart city mobility and real-time analytics functions,by leveraging the oneM2M common service layer instantiated on the MEC host.展开更多
基金supported by the Institute of Information&Communications Technology Planning&Evaluation(IITP)-Information Technology Research Center(ITRC)grant funded by the Korea government(IITP-2025-RS-2021-II211816)supported by the National Research Foundation of Korea(NRF)grant(NRF-2023R1A2C1004453)+3 种基金funded by the European Union’s HORIZON-JUSNS-2023 HE research and innovation program(6G-Path project,Grant No.101139172)the Horizon 2020 Research and Innovation Program(aerOS project,Grant No.101069732)supported by the ESTIMED project,conducted by the ETSI Specialist Task Force 685(STF 685)funded by the European Commission(EC)and the European Free Trade Association(EFTA).
文摘Edge computing is swiftly gaining traction and is being standardised by the European Telecommunications Standards Institute(ETSI)as Multi-access Edge Computing(MEC).Simultaneously,oneM2M has been actively developing standards for dynamic data management and IoT services at the edge,particularly for applications that require real-time support and security.Integrating MEC and oneM2M offers a unique opportunity to maximize their individual strengths.Therefore,this article proposes a framework that integrates MEC and oneM2M standard platforms for IoT applications,demonstrating how the synergy of these architectures can leverage the geographically distributed computing resources at base stations,enabling efficient deployment and added value for time-sensitive IoT applications.In addition,this study offers a concept of potential interworking models between oneM2M and the MEC architectures.The adoption of these standard architectures can enable various IoT edge services,such as smart city mobility and real-time analytics functions,by leveraging the oneM2M common service layer instantiated on the MEC host.
