基于区块链的元宇宙的无信任架构

IF 3.2 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS High-Confidence Computing Pub Date : 2023-03-01 DOI:10.1016/j.hcc.2022.100088
Minghui Xu , Yihao Guo , Qin Hu , Zehui Xiong , Dongxiao Yu , Xiuzhen Cheng
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引用次数: 0

摘要

元宇宙重新点燃了人类通过融合虚拟世界和现实世界来进一步打破时空障碍的愿望。然而,安全和隐私威胁阻碍了我们建立乌托邦。元宇宙包含了各种技术,同时继承了它们的陷阱,从而暴露了巨大的攻击面。区块链于2008年提出,被认为是元宇宙的关键组成部分。它使用防篡改的去中心化账本实现了透明和可信的计算环境。目前,区块链支持元宇宙的去中心化金融(DeFi)和不可替代代币(NFT)。然而,区块链的力量还没有得到充分利用。在本文中,我们提出了一种新的基于区块链的元宇宙的无信任架构,旨在通过整合硬件和软件组件来提供高效的资源集成和分配。为了实现我们的设计目标,我们提供了一种基于本地信任评估的按需可信计算环境(OTCE)技术。具体来说,该体系结构采用超图来表示元宇宙,其中每个超边将一组具有特定关系的用户链接起来。然后,可以基于图分析技术来评估每个用户组的信任级别。根据信任值,每个组可以根据需要确定其安全计划,不受无关节点的干扰。此外,OTCE支持大规模和灵活的应用程序环境(沙盒),同时保留了强大的安全保障。
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A trustless architecture of blockchain-enabled metaverse

Metaverse has rekindled human beings’ desire to further break space-time barriers by fusing the virtual and real worlds. However, security and privacy threats hinder us from building a utopia. A metaverse embraces various techniques, while at the same time inheriting their pitfalls and thus exposing large attack surfaces. Blockchain, proposed in 2008, was regarded as a key building block of metaverses. it enables transparent and trusted computing environments using tamper-resistant decentralized ledgers. Currently, blockchain supports Decentralized Finance (DeFi) and Non-fungible Tokens (NFT) for metaverses. However, the power of a blockchain has not been sufficiently exploited. In this article, we propose a novel trustless architecture of blockchain-enabled metaverse, aiming to provide efficient resource integration and allocation by consolidating hardware and software components. To realize our design objectives, we provide an On-Demand Trusted Computing Environment (OTCE) technique based on local trust evaluation. Specifically, the architecture adopts a hypergraph to represent a metaverse, in which each hyperedge links a group of users with certain relationship. Then the trust level of each user group can be evaluated based on graph analytics techniques. Based on the trust value, each group can determine its security plan on demand, free from interference by irrelevant nodes. Besides, OTCEs enable large-scale and flexible application environments (sandboxes) while preserving a strong security guarantee.

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