Metaverse-AKA: A Lightweight and PrivacyPreserving Seamless Cross-Metaverse Authentication and Key Agreement Scheme

IF 0.9 Q4 COMPUTER SCIENCE, SOFTWARE ENGINEERING

Scalable Computing-Practice and Experience Pub Date : 2022-12-01 DOI:10.1109/SmartWorld-UIC-ATC-ScalCom-DigitalTwin-PriComp-Metaverse56740.2022.00340

Yingying Yao, Xiaolin Chang, Lin Li, Jiqiang Liu, J. Misic, V. Mišić

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引用次数: 0

Abstract

The recent advances of emerging technologies including artificial intelligence, 5G, 6G, extended reality and blockchain promote the rapid development of next-generation Internet. As an evolving paradigm of next-generation Internet, metaverse, a fully immersive, hyper spatiotemporal and selfsustaining virtual shared space, is moving from imagination to the coming reality. However, its massive data flow, pervasive user profiling activities and other intrinsic features can lead to a lot of security and privacy concerns, which will hinder its further deployment. Specially, since the identities of users/avatars in the metaverse can be illegally stolen, impersonated, and interoperability issues can be encountered in authentication across metaverses, this paper designs a lightweight and privacy-preserving seamless cross-metaverse authentication and key agreement scheme named MetaverseAKA to meet the challenges. Metaverse-AKA can not only realize the seamless cross-metaverse authentication but also assure the users’ privacy by achieving the anonymity and unlinkability. In addition, Metaverse-AKA also has the following advantages: (i) Realizing the traceability for users in physical world. (ii) Resistance to multiple attacks like impersonation attack, man-in-the-middle attack and replay attack. (iii) Adopting lightweight cryptographic prinitives and having better performance through experiment verification and comparison.

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Metaverse-AKA:一个轻量级且保护隐私的无缝跨metaverse认证和密钥协议方案

近年来，人工智能、5G、6G、扩展现实、区块链等新兴技术的发展推动了下一代互联网的快速发展。作为下一代互联网不断发展的范式，虚拟世界作为一个完全沉浸式、超时空和自我维持的虚拟共享空间，正从想象走向现实。然而，其庞大的数据流、普遍的用户分析活动和其他固有特性可能导致许多安全和隐私问题，这将阻碍其进一步部署。特别针对元空间中用户/头像的身份可能被非法窃取、冒充以及跨元空间身份验证存在互操作性问题等问题，本文设计了一种轻量级、隐私保护的无缝跨元空间身份验证和密钥协议方案MetaverseAKA来应对这些挑战。Metaverse-AKA不仅可以实现无缝的跨metaverse认证，还可以通过匿名性和不可链接性来保证用户的隐私。此外，Metaverse-AKA还具有以下优势:(i)实现了用户在物理世界中的可追溯性。(ii)抵抗多种攻击，如冒充攻击、中间人攻击和重放攻击。(iii)采用轻量级的密码原语，通过实验验证和比较，具有更好的性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Scalable Computing-Practice and Experience COMPUTER SCIENCE, SOFTWARE ENGINEERING-

CiteScore

2.00

自引率

0.00%

发文量

期刊介绍： The area of scalable computing has matured and reached a point where new issues and trends require a professional forum. SCPE will provide this avenue by publishing original refereed papers that address the present as well as the future of parallel and distributed computing. The journal will focus on algorithm development, implementation and execution on real-world parallel architectures, and application of parallel and distributed computing to the solution of real-life problems.