基于时间戳的OTP和带有SIT加密的增强RSA密钥交换方案,以保护物联网设备

Q3 Computer Science
V. Kollipara, Sai Koushik Kalakota, Sujith Chamarthi, S. Ramani, Preeti Malik, Marimuthu Karuppiah
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引用次数: 0

摘要

物联网(IoT)已经成为一项新兴技术,预计在不久的将来将有数十亿台设备连接到互联网。随着时间的推移,越来越多的设备,如可穿戴设备、智能家居系统和工业自动化设备正在连接到互联网。物联网设备主要使用无线通信网络传输数据,引入了更多漏洞,如中间人攻击和窃听。由于互联网固有的开放性,这些安全问题对于任何通过互联网进行通信的设备来说都是习以为常的。这些问题通常被典型系统中使用的传统加密算法所抑制,这些系统耗电且计算密集型,使得它们无法用于物联网设备,因为它们运行在低功耗芯片上,限制了性能、内存和带宽。因此,需要采用轻量级加密算法,在使用低计算资源的同时减轻安全问题,这是给定场景中的约束。因此,我们提出了一个端到端安全的物联网系统,确保系统的完整性永远不会使用轻量级加密算法受到损害。我们提出了一个三模块系统,其中第一个模块使用基于时间的一次性密码处理用户身份验证,第二个模块使用轻量级增强型RSA保护通信,第三个模块使用基于feistel的增强型SIT执行数据加密。这种系统旨在应对物联网设备中的安全挑战,确保足够的数据安全性,同时使用轻量级加密技术减少计算占用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Timestamp Based OTP and Enhanced RSA Key Exchange Scheme with SIT Encryption to Secure IoT Devices
The Internet of Things (IoT) has become an emerging technology and is expected to connect billions of more devices to the internet in the near future. With time, more and more devices like wearables, intelligent home systems, and industrial automation devices are getting connected to the internet. IoT devices primarily transfer data using wireless communication networks, introducing more vulnerabilities like man-in-the-middle-attacks and eavesdropping. These security concerns are customary for any device communicating over the internet because of its intrinsic open nature. These problems are usually subdued by conventional cryptographic algorithms used in typical systems that are power-hungry and computationally intensive, making them infeasible to be used in IoT devices since they run on low-powered chips, limiting performance, memory, and bandwidth. Hence, there is a requirement to adopt lightweight cryptographic algorithms that can abate the security issues while using low computational resources, which is the constraint in the given scenario. Hence, we propose an end-to-end secured IoT system that ensures the system’s integrity is never compromised using lightweight cryptographic algorithms. We propose a three-module system, where the first module handles user authentication using a time-based one-time password, the second secures communication using lightweight enhanced RSA, and the third performs data encryption using Feistel-based enhanced SIT. This kind of system is designed to deal with security challenges in IoT devices, ensuring adequate data security while reducing the computational footprint using lightweight cryptography.
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来源期刊
Journal of Cyber Security and Mobility
Journal of Cyber Security and Mobility Computer Science-Computer Networks and Communications
CiteScore
2.30
自引率
0.00%
发文量
10
期刊介绍: Journal of Cyber Security and Mobility is an international, open-access, peer reviewed journal publishing original research, review/survey, and tutorial papers on all cyber security fields including information, computer & network security, cryptography, digital forensics etc. but also interdisciplinary articles that cover privacy, ethical, legal, economical aspects of cyber security or emerging solutions drawn from other branches of science, for example, nature-inspired. The journal aims at becoming an international source of innovation and an essential reading for IT security professionals around the world by providing an in-depth and holistic view on all security spectrum and solutions ranging from practical to theoretical. Its goal is to bring together researchers and practitioners dealing with the diverse fields of cybersecurity and to cover topics that are equally valuable for professionals as well as for those new in the field from all sectors industry, commerce and academia. This journal covers diverse security issues in cyber space and solutions thereof. As cyber space has moved towards the wireless/mobile world, issues in wireless/mobile communications and those involving mobility aspects will also be published.
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