Impact of filtering chaotic signals on secure wireless communication systems based Chua's circuit

2013 9th International Conference on Innovations in Information Technology (IIT) Pub Date : 2013-03-17 DOI:10.1109/INNOVATIONS.2013.6544399

W. Al-Hussaibi

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引用次数: 9

Abstract

One of the challenging issues involved in the development of future chaos-based secure communication (CBSC) for wireless applications is the synchronization between transmit and receive nodes. In this paper, effects of filtering chaotic signals of CBSC due to finite bandwidth of realistic channel environment and/or detection requirements on the synchronization are investigated. The double scroll chaotic attractor using Chua's circuit is employed at the transmit and receive nodes. Over wide range of filter cut-off frequency (η), simulation results show that as η decreased, below the bandwidth of chaotic signal (W), the synchronization error is increased due to high distortion in the normal geometrical configuration (state-space) of the attractor. Consequently, the system performance will be degraded significantly with high possibility of communication link failure. Thus, careful design should be made to eliminate the impact of filtering and achieve the essential synchronization towards the wide adoption of CBSC in next-generation systems.

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基于蔡氏电路的混沌信号滤波对安全无线通信系统的影响

面向无线应用的未来基于混沌的安全通信(CBSC)的发展所涉及的一个具有挑战性的问题是发送和接收节点之间的同步。本文研究了由于现实信道环境的带宽有限和(或)检测要求，CBSC滤波混沌信号对同步的影响。在发射和接收节点采用蔡氏电路的双涡旋混沌吸引子。在较宽的滤波器截止频率(η)范围内，仿真结果表明，当η减小到混沌信号带宽(W)以下时，由于吸引子正常几何结构(状态空间)的高畸变，同步误差增大。因此，系统性能将显著下降，通信链路故障的可能性很大。因此，为了在下一代系统中广泛采用CBSC，应仔细设计以消除滤波的影响并实现必要的同步。

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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2013 9th International Conference on Innovations in Information Technology (IIT)

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