# Blockchain-enabled Authentication Handover with Efficient Privacy   Protection in SDN-based 5G Networks

**Authors:** Abbas Yazdinejad, Reza M. Parizi, Ali Dehghantanha, Kim-Kwang Raymond, Choo

arXiv: 1905.03193 · 2020-06-23

## TL;DR

This paper introduces a blockchain and SDN-based authentication handover method for 5G networks that significantly reduces delay and preserves user privacy during cell transitions.

## Contribution

It presents a novel blockchain-enabled authentication approach that eliminates re-authentication delays in 5G handovers, enhancing efficiency and privacy.

## Key findings

- Authentication delay less than 1ms
- Reduced signaling overhead
- Lower energy consumption

## Abstract

5G mobile networks provide additional benefits in terms of lower latency, higher data rates, and more coverage, in comparison to 4G networks, and they are also coming close to standardization. For example, 5G has a new level of data transfer and processing speed that assures users are not disconnected when they move from one cell to another; thus, supporting faster connection. However, it comes with its own technical challenges relating to resource management, authentication handover and user privacy protection. In 5G, the frequent displacement of the users among the cells as a result of repeated authentication handovers often lead to a delay, contradicting the 5G objectives. In this paper, we propose a new authentication approach that utilizes blockchain and software defined networking (SDN) techniques to remove the re-authentication in repeated handover among heterogeneous cells. The proposed approach is designed to assure the low delay, appropriate for the 5G network in which users can be replaced with the least delay among heterogeneous cells using their public and private keys provided by the devised blockchain component while protecting their privacy. In our comparison between Proof-of-Work (POW)-based and network-based models, the delay of our authentication handover was shown to be less than 1ms. Also, our approach demonstrated less signaling overhead and energy consumption compared to peer models.

## Full text

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## Figures

13 figures with captions in the complete paper: https://tomesphere.com/paper/1905.03193/full.md

## References

34 references — full list in the complete paper: https://tomesphere.com/paper/1905.03193/full.md

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Source: https://tomesphere.com/paper/1905.03193