当前位置: X-MOL 学术Comput. Netw. › 论文详情
Our official English website, www.x-mol.net, welcomes your feedback! (Note: you will need to create a separate account there.)
UAP: A unified authentication platform for IoT environment
Computer Networks ( IF 5.6 ) Pub Date : 2021-01-08 , DOI: 10.1016/j.comnet.2021.107811
Fatma Hendaoui , Hamdi Eltaief , Habib Youssef

The Internet of Things (IoT) is a network that encompasses every physical object being connected to the Internet. The IoT objects face several issues and challenges due to the large number and the heterogeneity of the interconnected devices. Many researchers have shown that security is among the most important challenges that the IoT faces. Security requirements such as confidentiality, integrity and authentication are fundamental, but the last one is considered as the cornerstone security service.

This paper considers authentication as its core and presents an extensive review of the already proposed authentication solutions for the IoT. Subsequently, it investigates new authentication requirements and challenges introduced in the context of the embedded IoT devices. Furthermore, it unveils the proposed authentication platform. The platform is based on a reduced signature generated on a distributed way from the devices’ personal keys. Also, it allows a receiving entity to verify the identity of the sender entity and obliges the sender not to deny the emission action. The analysis and simulation comparison between the literature and the proposed solution is presented.

The analysis and simulation study provide that the proposed platform respects the requirements of any IoT device and is recommended for low power IoT devices. In the sequel, simulation results validate the analytical study and shows that the proposal is recommended for any IoT embedded device. For instance, the average energy and communication costs are no more than 0.03 microjoules and 2.73 message exchange, respectively.



中文翻译:

UAP:物联网环境的统一身份验证平台

物联网(IoT)是一个包含连接到Internet的每个物理对象的网络。由于互连设备数量众多且异构,物联网对象面临若干问题和挑战。许多研究人员表明,安全性是物联网面临的最重要挑战之一。诸如机密性,完整性和身份验证之类的安全性要求是基本要求,但最后一项被视为基础安全性服务。

本文将身份验证作为其核心,并对已提出的物联网身份验证解决方案进行了广泛的回顾。随后,它研究了新的身份验证要求和嵌入式物联网设备中引入的挑战。此外,它还公开了建议的身份验证平台。该平台基于从设备的个人密钥以分布式方式生成的简化签名。而且,它允许接收实体验证发送方实体的身份,并强制发送方不拒绝发射行为。给出了文献和提出的解决方案之间的分析和仿真比较。

分析和仿真研究表明,所建议的平台符合任何物联网设备的要求,并建议用于低功耗物联网设备。在续篇中,仿真结果验证了分析研究的结果,并表明该建议书建议用于任何物联网嵌入式设备。例如,平均能量和通信成本分别不超过0.03微焦耳和2.73消息交换。

更新日期:2021-01-24
down
wechat
bug