Blockchain-based Roaming and Offload Service Platform for Local 5G Operators

Local 5G Operator (L5GO) concept is one of the most prominent versatile applications of the 5G in the near future. The popularity of L5GOs will trigger a greater number of roaming and offloading events between mobile operators. However, existing static and the operator-assisted roaming and offloading procedures are inefficient for L5GO ecosystem due to poor service quality, data privacy issues, data transferring delays, excessive costs for intermediary parties and existence of roaming fraud. To address these challenges, we propose a blockchain / Distributed Ledger Technology (DLT) based service platform for L5GOs to facilitate efficient roaming and offload services. As the key contribution, blockchain-based smart contract scheme is proposed to establish dynamic and automated agreements between operators. By using smart contracts, we introduce several novel features such as universal wallet for subscribers, service quality based L5GO rating system, user-initiated roaming process and the roaming fraud prevention system to improve the operational quality of a L5GO. A prototype of the proposed platform is emulated with the Ethereum blockchain platform and Rinkeby Testnet to evaluate the performance and justify the feasibility of the proposal. Upon an extensive evaluation on the prototype, it was observed that the proposed platform offered benefits such as cost effective, more secure and reliable experience.

Weerasinghe Nisita, Hewa Tharaka, Dissanayake Maheshi, Ylianttila Mika, Liyanage Madhusanka

Publication type:
A4 Article in conference proceedings

Place of publication:
IEEE Consumer Communications & Networking Conference (CCNC), 2021

5G, blockchain, Distributed Ledger Technology, Local 5G Operators, Offload, roaming, Smart Contracts

11 March 2021

Full citation:
N. Weerasinghe, T. Hewa, M. Dissanayake, M. Ylianttila and M. Liyanage, “Blockchain-based Roaming and Offload Service Platform for Local 5G Operators,” 2021 IEEE 18th Annual Consumer Communications & Networking Conference (CCNC), Las Vegas, NV, USA, 2021, pp. 1-6, doi: 10.1109/CCNC49032.2021.9369516


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