SQuBA: Social Quorum Based Access Control for Open IoT Environments

2023 IEEE International Conference on Edge Computing and Communications (EDGE) Pub Date : 2023-07-01 DOI:10.1109/EDGE60047.2023.00020

Yixuan Wang, A. Chandra, J. Weissman

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Abstract

Internet of things (IoT) devices have been ubiquitous in recent years. An emerging model for IoT deployment is an open edge-based infrastructure. Edge resources are commonly used to coordinate capabilities and manage access due to IoT device resource limitations and IoT vendor heterogeneity. The open IoT environment often exists in a multi-user setting, where multiple users interact with a single IoT device. In this setting, we assume that none of the users or the edges are fully trusted, thus IoT data privacy may be compromised. Limited attention has been paid to authorization and auditing in this environment. However, exploiting inter-user relationships gives us leverage. In this work, we propose a social quorum based architecture, SQuBA, as an access control mechanism for IoT which provides relationship-driven authorization and auditing. We present a tiered approach to support access control rules and relationship-based trustworthiness. We implemented a prototype and carried out experiments using a real-world dataset under various scenarios and configurations. The results demonstrate both SQuBA’s promising near real-time response latency that is in the order of milliseconds, and good resilience to different edge faulty models. We also compare with various baselines and SQuBA is able to improve end-to-end latency by up to 10X and tolerate the number of faulty edges by up to 2X.

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SQuBA:基于社会仲裁的开放物联网环境访问控制

近年来，物联网(IoT)设备无处不在。物联网部署的新兴模式是基于开放边缘的基础设施。由于物联网设备资源的限制和物联网供应商的异质性，边缘资源通常用于协调能力和管理访问。开放的物联网环境通常存在于多用户设置中，其中多个用户与单个物联网设备交互。在这种情况下，我们假设没有一个用户或边缘是完全可信的，因此物联网数据隐私可能会受到损害。在这种环境中，对授权和审计的关注有限。然而，利用用户间关系为我们提供了优势。在这项工作中，我们提出了一个基于社会仲裁的架构，SQuBA，作为物联网的访问控制机制，提供关系驱动的授权和审计。我们提出了一种分层的方法来支持访问控制规则和基于关系的可信度。我们实现了一个原型，并使用现实世界的数据集在各种场景和配置下进行了实验。结果表明，SQuBA具有毫秒级的近实时响应延迟，并且对不同边缘故障模型具有良好的弹性。我们还与各种基线进行了比较，发现SQuBA能够将端到端延迟提高10倍，并将错误边的数量提高2倍。

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

2023 IEEE International Conference on Edge Computing and Communications (EDGE)

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