An Efficient Authentication Scheme for Fog Computing Environment using Symmetric Cryptographic methods

2021 IEEE 9th Region 10 Humanitarian Technology Conference (R10-HTC) Pub Date : 2021-09-30 DOI:10.1109/R10-HTC53172.2021.9641591

N. Gowda, S. Manvi

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引用次数: 6

Abstract

The mechanism of Fog computing is a distributed infrastructure to provide the computations as same as cloud computing. The fog computing environment provides the storage and processing of data in a distributed manner based on the locality. Fog servicing is better than cloud service for working with smart devices and users in a same locale. However the fog computing will inherit the features of the cloud, it also suffers from many security issues as cloud. One such security issue is authentication with efficient key management between the communicating entities. In this paper, we propose a secured two-way authentication scheme with efficient management of keys between the user mobile device and smart devices under the control of the fog server. We made use of operations such as one-way hash (SHA-512) functions, bitwise XOR, and fuzzy extractor function to make the authentication system to be better. We have verified the proposed scheme for its security effectiveness by using a well-used analysis tool ProVerif. We also proved that it can resist multiple attacks and the security overhead is reduced in terms of computation and communication cost as compared to the existing methods.

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基于对称密码方法的雾计算环境下的有效认证方案

雾计算的机制是提供与云计算相同的计算的分布式基础设施。雾计算环境以基于局部性的分布式方式提供数据的存储和处理。雾服务比云服务更适合与同一地区的智能设备和用户一起工作。然而，雾计算将继承云的特性，它也面临着云的许多安全问题。其中一个安全问题是在通信实体之间使用有效的密钥管理进行身份验证。本文在雾服务器的控制下，提出了一种在用户移动设备和智能设备之间有效管理密钥的安全双向认证方案。我们使用了单向散列(SHA-512)函数、按位异或和模糊提取函数等操作来改进身份验证系统。我们使用常用的分析工具ProVerif验证了该方案的安全有效性。证明了该方法可以抵抗多种攻击，并且与现有方法相比，在计算和通信开销方面降低了安全开销。

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

2021 IEEE 9th Region 10 Humanitarian Technology Conference (R10-HTC)

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