MIAS: An IoT based Multiphase Identity Authentication Server for Enabling Secure Communication

Q2 Computer Science

Journal of Internet Services and Information Security Pub Date : 2023-12-02 DOI:10.58346/jisis.2023.i4.008

Aswathy R.H., Srithar S., K. R. Dayana, Padmavathi Padmavathi, Suresh P.

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引用次数: 0

Abstract

Internet of Things (IoT) provides an imminent floor to exchange information and enhance communication technology using embedded devices that are too sophisticated daily and deployed in diverse fields of life. The colossal volume of sensors employed within IoT application leads to disperse an enormous amount of data in the open air. The rudimentary facet of IoT enabled technologies having the pitfall, security. It is a practical problem in terms of networking, application and communication. Since the resource constraint feature of IoT enabled technology, both security and efficiency can be balanced. The effective algorithm builds over Elliptic Curve Cryptography (ECC) provides an effective solution due to its small key size. The sensor node in this scheme is incorporated with TPM to protect the system in crucial IoT applications. In this proposed work, a three-way authentication factor with key agreement protocol proposed with consecutive phases such as registration, login, authentication, and access control. The security assessment of the proposed scheme with diverse attacks are elaborated and the computation overhead compared with related schemes.

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MIAS：基于物联网的多相身份验证服务器，实现安全通信

物联网(IoT)为使用日常过于复杂且部署在各种生活领域的嵌入式设备交换信息和增强通信技术提供了一个迫在眉睫的平台。物联网应用中使用的大量传感器导致大量数据分散在户外。物联网支持技术的基本方面具有陷阱，安全性。它在网络、应用和通信方面都是一个实际问题。由于物联网技术的资源约束特性，可以平衡安全性和效率。建立在椭圆曲线加密(ECC)之上的有效算法，由于其密钥大小较小，提供了一种有效的解决方案。该方案中的传感器节点与TPM相结合，在关键的物联网应用中保护系统。在此工作中，提出了一个具有密钥协议协议的三方身份验证因素，该认证协议具有注册、登录、身份验证和访问控制等连续阶段。阐述了该方案在各种攻击情况下的安全性评估，并与相关方案进行了计算开销比较。

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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