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引用次数: 15
摘要
物联网(Internet of Things, IoT)是指物理设备无缝集成到全球网络中,成为业务、信息和社会进程的积极参与者的互联世界。这些物理设备被称为智能对象,因为它们理解它们所处的环境并对其做出反应。然而,部署这种与互联网连接的智能对象具有挑战性,因为它们需要使用适当的网络和安全凭证进行正确配置。由于它们的输入能力极低,而且可能位于难以接近的位置,这一事实加剧了这种情况。在本文中,我们描述了如何使用第三代合作伙伴项目(3GPP)通用引导体系结构(GBA)来确保各种设备和服务之间的安全身份验证和通信。虽然GBA依赖于移动网络运营商的基础设施,但它不需要移动网络接入,只需要IP连接即可进行身份验证。我们用一个原型实现来展示我们的方法的可行性,它只会产生最小的内存开销。实验结果也表明了该方案的节能效果。
Secure and low-power authentication for resource-constrained devices
The Internet of Things (IoT) refers to an interconnected world where physical devices seamlessly integrate into a global network and become active participants of business, information, and social processes. These physical devices are referred to as smart objects since they understand and react to the environment they reside in. However, deploying such Internet-connected smart objects is challenging, since they need to be correctly configured with appropriate network and security credentials. This is exacerbated by the fact that they have minimal input capabilities and may be in inaccessible locations. In this article, we describe how to employ the 3rd Generation Partnership Project (3GPP) Generic Bootstrapping Architecture (GBA) to ensure secure authentication and communication among a variety of devices and services. Although GBA relies on the infrastructure of mobile network operators, it requires no mobile network access but only IP connectivity to perform authentication. We show the feasibility of our approach with a prototype implementation that incurs in a minimal memory overhead. Experimental results also show that our solution is energy-efficient.
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