A simple 8-bit digital microcontroller implementation for chaotic sequence generation

2011 28th National Radio Science Conference (NRSC) Pub Date : 2011-04-26 DOI:10.1109/NRSC.2011.5873617

A. K. Aboul-Seoud, E. El-Badawy, A. Mokhtar, W. El-Masry, Mohamed El-Barbry, Alaa El-Din Sayed Hafez

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引用次数: 9

Abstract

This paper introduces a simple implementation of digital chaotic sequence generator. The implementation is based on using microcontroller ATMGA 16 to generate the chaotic map required for advanced encryption standard (AES) encryption scheme s-box and radar frequency agile control. The implemented circuit is simple, low cost and suitable for use with identification friend or foe (IFF) equipped with data encryption systems. The circuit also can changes the carrier frequency of the transmitted signal based on chaotic map, benefits a security and confidentiality to the radar waveform against Electronic Counter Measurement (ECM). The circuit generates 256 random sequences at different initial conditions and each of them has 256 sequences generated from different bifurcation parameters. The circuit is simulated under Matlab program environment and Proteus circuit simulation program. A security analysis for the implemented circuit is demonstrated. The results show the superiority of the circuit for generating the random sequences forming an efficient s-box for IFF system and radar frequency agility.

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一个简单的8位数字微控制器实现混沌序列生成

本文介绍了一种数字混沌序列发生器的简单实现。该方案的实现是基于ATMGA 16微控制器生成高级加密标准(AES)加密方案s-box和雷达频率敏捷控制所需的混沌映射。所实现的电路简单，成本低，适合与配备数据加密系统的敌我识别(IFF)一起使用。该电路还可以根据混沌映射改变发射信号的载波频率，有利于雷达波形对电子对抗(ECM)的安全性和保密性。电路在不同初始条件下产生256个随机序列，每个随机序列有256个由不同分岔参数产生的序列。在Matlab编程环境和Proteus电路仿真程序下对电路进行了仿真。对所实现的电路进行了安全性分析。结果表明，该电路在生成随机序列形成有效的s盒和雷达频率敏捷性方面具有优势。

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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2011 28th National Radio Science Conference (NRSC)

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