安全高效的基于CoAP的物联网(IoT)认证和访问控制

Mohsin B. Tamboli, Dayanand Dambawade
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引用次数: 26

摘要

物联网(IoT)作为一种有吸引力的系统范式正在成长。围绕物联网(IoT)有很多炒作,随着我们超越人类与机器的对话,物联网也在不断发展。物联网通过物理空间、网络空间和社交空间相互连接。物联网中使用的东西是传感器和执行器、机械设备和网络,包括网关、无线基础设施。其中大多数设备是资源受限的。在设备之间的交互过程中,物联网面临着严峻的安全挑战。复杂的网络会产生潜在的漏洞,涉及异构设备、传感器和后端系统。因此,实现物联网设备间安全通信的梦想是值得期待的。资源受限网络的安全性变得至关重要。许多现有机制为网络和系统提供了安全性和保护,但它们无法提供细粒度的访问控制。在这项工作中,我们主要关注基于CoAP的框架,以在资源受限的设备上提供服务级访问控制。它在每个服务的基础上提供细粒度的访问控制。ECDSA用于提高系统的隐私性。将基于CoAP的框架与现有安全方案的性能进行了比较和分析。测试结果表明,该系统的通信开销和认证延迟均小于现有系统。从而提高了系统的安全性能。目标是为由资源受限设备组成的低功耗网络提供全面的安全框架。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Secure and efficient CoAP based authentication and access control for Internet of Things (IoT)
Internet of Things (IoT) is growing as an attractive system paradigm. There is a lot of hype around the internet of things (IoT) and it continues to evolve as we move beyond humans talking to machines. IoT has interconnections through the physical, cyber and social spaces. Things used in IoT are sensors and actuators, mechanical devices and networking includes gateways, wireless infrastructure. Most of devices among them are resource constrained. During the interaction between devices, IoT gets suffered from severe security challenges. Complicated network produces potential vulnerabilities referred to heterogeneous devices, sensors and backend systems. So to realize the dream of internet of things secured device to device communication is expected. Security of resource constrained networks becomes prime important. Many existing mechanisms gives security and protection to networks and systems but they are unable to give fine grain access control. In this work, we focused on CoAP based framework to give service level access control on resource constrained devices. It gives fine grain access control on a per service basis. ECDSA is used to improve privacy of the system. Performance of CoAP based framework is compared and analyzed with existing security solutions. Test results are presented which shows that communication overhead and authentication delay are less than the existing system. Hence security performance of system gets improved. The goal is to present comprehensive security framework for low power networks consist of resource constrained devices.
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