Implementation of chaotic oscillator using Matlab

2017 International Conference on Recent Innovations in Signal processing and Embedded Systems (RISE) Pub Date : 2017-10-01 DOI:10.1109/RISE.2017.8378133

G. Swetha, M. Priya, Ramji Gupta, Alpana Pandey

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引用次数: 2

Abstract

This paper signifies a customized chaotic Pehlivan wei system which has been implemented using mathematical approaches using high accuracy algorithm like RK4 with emphasis on time, speed and area. The phase portrayals of the structure have been pulled out for analyzing the system. The basic — Chua circuit! is used for designing this new PWCS system. RMSE analysis and the performance of the structure with a variety of data sets have been observed. The innovative system is numerically coded in Matlab R2010a environment. The parameter ‘a’ and initial conditions are changed without violating the chaotic properties. The clock speeds and timing replication results have been analyzed. The operating frequency of these oscillators has been able to reach a maximum value to increase speed and decrease the time period. Comparison has been made between the timing simulation results and the phase plots of the PWCS system and the new modified PWCS chaotic system developed and their compassion to preliminary conditions have been observed.

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用Matlab实现混沌振荡器

本文提出了一种自定义的混沌佩利伟系统，该系统采用RK4等高精度算法，采用数学方法实现，重点是时间、速度和面积。绘制了结构的相图，对系统进行了分析。基本——蔡电路!，用于设计新的PWCS系统。RMSE分析和各种数据集的结构性能进行了观察。该创新系统在Matlab R2010a环境下进行了数值编码。在不违反混沌性质的情况下改变参数a和初始条件。对时钟速度和定时复制结果进行了分析。这些振荡器的工作频率已经能够达到最大值，以提高速度和减少时间周期。将时序仿真结果与所开发的PWCS系统和改进后的PWCS混沌系统的相位图进行了比较，并观察了它们与初始条件的一致性。

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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来源期刊

2017 International Conference on Recent Innovations in Signal processing and Embedded Systems (RISE)

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