Trust Me, I'm Lying: Enhancing Machine-to-Machine Trust

2022 ACM/IEEE 13th International Conference on Cyber-Physical Systems (ICCPS) Pub Date : 2022-05-01 DOI:10.1109/iccps54341.2022.00034

Cameron Hickert, Ali Tekeoglu, Ryan Watson, Joseph Maurio, Daniel P. Syed, Jeffrey S. Chavis, G. Brown, Tamim I. Sookoor

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引用次数: 1

Abstract

Incorporating smart technology into critical infrastructure (CI) promises substantial efficiency improvements as networks of machines communicate and make rapid decisions autonomously. Yet the promise of greater efficiency that such cyber-physical systems (CPS) bring is tempered by increased fragility unless machine-to-machine (M2M) trust is enhanced, particularly in Internet-of-Things (IoT) networks. This work makes two contributions toward improving M2M trust. First, it proposes a multifaceted trust framework comprised of identity verification, experience, context, and recommendation scores to enable high-integrity M2M interactions. Second, this trust framework is implemented via an IoT-friendly distributed ledger on a physical testbed, where it is shown to identify and mitigate errors due to a compromised system component. This implementation mirrors real-world IoT systems in which resource- constrained endpoint devices pose trust score computation chal-lenges and the number of devices raises scalability obstacles for information sharing among nodes.

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相信我，我在撒谎:增强机器对机器的信任

将智能技术纳入关键基础设施(CI)有望大幅提高效率，因为机器网络可以进行通信并自主做出快速决策。然而，除非机器对机器(M2M)的信任得到加强，特别是在物联网(IoT)网络中，否则这种网络物理系统(CPS)带来的更高效率的承诺会因脆弱性的增加而受到削弱。这项工作为提高M2M信任做出了两个贡献。首先，它提出了一个多方面的信任框架，包括身份验证、经验、背景和推荐分数，以实现高完整性的M2M交互。其次，这个信任框架是通过物理测试平台上的物联网友好分布式账本实现的，它被证明可以识别和减轻由于系统组件受损而导致的错误。这种实现反映了现实世界的物联网系统，其中资源受限的端点设备带来了信任评分计算挑战，设备数量增加了节点之间信息共享的可扩展性障碍。

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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2022 ACM/IEEE 13th International Conference on Cyber-Physical Systems (ICCPS)

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