Modify PRESENT Algorithm by New technique and key Generator by External unit

Tikrit Journal of Pure Science Pub Date : 2023-04-27 DOI:10.25130/tjps.v28i2.1340

Ahmed Abdullah Khalil, Awny Muhammed Kaftan, Maytham Mustafa Hammoud

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Abstract

Recently, the widespread use of devices in the field of electronics has caused people to worry about safety. Using traditional cryptographic algorithms to build a complete cryptographic environment for embedded applications or the Internet of Things (IoT) will not be possible due to space, power, and speed limitations. The focus is on lightweight encryption to overcome these problems. In this paper, we have developed the (PRESENT) algorithm, which is among the lightweight algorithms that are used in the IOT and that keeps pace with the requirements of communication speed at the present time. We also used a physical part with the developed algorithm (an external unit that is a USB and using it as a fingerprint for the system) to generate the key while ensuring that the system does not work until after the external unit is connected to the calculator to provide more security for the system from breaches. The developed algorithm achieved a high speed of execution faster than the original algorithm and passed standard tests for various files (text, image, audio, video). In addition to increasing the degree of complexity than the original algorithm.

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采用新技术对现有算法进行改进，并利用外部单元实现密钥生成

最近，电子设备在电子领域的广泛使用引起了人们对安全的担忧。由于空间、功率和速度的限制，使用传统的加密算法为嵌入式应用程序或物联网(IoT)构建完整的加密环境是不可能的。重点是轻量级加密，以克服这些问题。在本文中，我们开发了(PRESENT)算法，它是物联网中使用的轻量级算法之一，符合当前对通信速度的要求。我们还使用了一个具有开发算法的物理部分(一个外部单元，它是一个USB，并将其用作系统的指纹)来生成密钥，同时确保系统在外部单元连接到计算器之后才工作，从而为系统提供更大的安全性。所开发的算法实现了比原算法更快的高执行速度，并通过了各种文件(文本、图像、音频、视频)的标准测试。除了比原算法增加了复杂度之外。

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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Tikrit Journal of Pure Science

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