5G网络安全业务信令认证与密钥协商协议

V. O. Nyangaresi, Z. A. Abduljabbar, Z. Abduljabbar
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引用次数: 2

摘要

5G网络的安全和隐私问题主要围绕可追溯性、去同步、模拟、中间人、可链接性、消息重放等。尽管已经引入了5G身份验证和密钥协议(5G-AKA)、可扩展身份验证协议(EAP-AKA)和EAP传输层安全(EAP- tls)来提高这些网络的安全性,但在这些协议中已经发现了许多安全漏洞,使它们容易受到攻击。因此,已经对解决这些问题的替代协议进行了广泛的研究。然而,目前的协议仍然存在许多安全性和性能差距。本文提出了一种基于哈希签名的AKA协议。其安全评估表明,它对5G的几种攻击具有鲁棒性。与其他相关方法相比,它还具有最低的计算和通信开销。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Authentication and Key Agreement Protocol for Secure Traffic Signaling in 5G Networks
Security and privacy issues in 5G networks center around traceability, de-synchronization, impersonation, man-in-the-middle, linkability, message replays among others. Although 5G authentication and key agreement (5G-AKA), Extensible Authentication Protocol AKA (EAP-AKA) and EAP Transport Layer Security (EAP-TLS) have been introduced to boost security in these networks, numerous security flaws have been identified in these protocols that render them vulnerable. As such, there has been extensive research on alternative protocols to address these issues. However, the presented protocols still have many security and performance gaps. In this paper, hash signature based AKA protocol is developed. Its security evaluation shows that it is robust against several 5G attacks. It also has the lowest computation and communication overheads compared with the other related approaches.
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