Implementation and Analysis of New Lightweight Cryptographic Algorithm Suitable for Wireless Sensor Networks

W. Koo, Hwaseong Lee, Y. H. Kim, Dong Hoon Lee
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引用次数: 67

Abstract

Sensor devices have critical resource constraints such as processing speed, memory size and energy supply. Especially, energy consumption affects the network lifetime so that energy efficiency is an important requirement for wireless sensor networks (WSNs). It means that it is a considerable matter to choose the energy- and memory-efficient cryptographic algorithm suitable for wireless sensor networks. Tiny Sec, de facto security architecture for wireless sensor networks, supports traditional cryptographic algorithms such as RC5 and Skipjack while the traditional cryptographic algorithms might be unsuitable for 8-bit computing devices of which wireless sensor networks consist. Accordingly, it is necessary to evaluate the traditional cryptographic algorithms and 8-bit oriented cryptographic algorithm in performance but there is no work in this area. In this paper, we consider another candidate HIGHT, designed to be proper to ubiquitous 8-bit computing devices (e.g. sensor node or RFID tag), for wireless sensor networks. After implementing new lightweight HIGHT on Mica! and analyzing the performance between HIGHT and the traditional cryptographic algorithms, we can conclude that HIGHT, outstanding in security and efficiency, is recommended for TinySec as like traditional cryptographic algorithms on TinySec. Hence, we recommend new lightweight candidate HIGHT to be added to security module in TinySec.
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适用于无线传感器网络的新型轻量级加密算法的实现与分析
传感器设备有关键的资源限制,如处理速度、内存大小和能源供应。特别是能量消耗会影响网络的寿命,因此对无线传感器网络的能效要求很高。这意味着选择适合无线传感器网络的节能和内存高效的加密算法是一个相当重要的问题。Tiny Sec是无线传感器网络事实上的安全架构,它支持传统的加密算法,如RC5和Skipjack,而传统的加密算法可能不适合无线传感器网络组成的8位计算设备。因此,有必要对传统密码算法和面向8位的密码算法的性能进行评估,但在这方面还没有研究。在本文中,我们考虑了另一个候选的ight,设计适用于无处不在的8位计算设备(例如传感器节点或RFID标签),用于无线传感器网络。在云母上实现新的轻量级ight之后!通过对HIGHT算法与传统加密算法性能的对比分析,我们可以得出,与传统加密算法一样,HIGHT算法在安全性和效率方面都有突出的特点,是推荐用于TinySec的。因此,我们建议在TinySec的安全模块中添加新的轻量级候选ight。
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