Chaotifing Duffing-type System with Large Parameter Range Based on Optimal Time-Delay Feedback Control

2010 International Workshop on Chaos-Fractal Theories and Applications Pub Date : 2010-10-29 DOI:10.1109/IWCFTA.2010.38

Jiaxi Zhou, Daolin Xu, Yingli Li

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引用次数: 9

Abstract

This report presents a technique of chaotification based on the optimal time-delay feedback that can make a system chaotic with large chaotic parameters range. The bifurcation analysis is done to determine the stability of the time-delay system. An implicit performance index and an optimization strategy are proposed for the time-delay control scheme that can be effectively carried out to obtain the optimal delay time for chaos with best quality. Simulation results of Duffing-type systems show that it is possible to excite the system behaving chaotically while the feedback controls remain small at favorable level. Chaotification performance is further discussed when the excitation frequency and system parameters are widely changed. Results also reveal an interesting phenomenon that the optimal time-delay chaotification can reduce or even eliminates line spectra apparently when the excitation frequency is approximately lower than 8Hz, which may potentially lead to an application for line spectra reduction of the radiated noise emitted from underwater vehicles.

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基于最优时滞反馈控制的大参数范围超定duffing型系统

本文提出了一种基于最优时滞反馈的混沌化技术，可以使混沌参数范围大的系统产生混沌。通过分岔分析来确定时滞系统的稳定性。提出了时滞控制方案的隐式性能指标和优化策略，可以有效地获得混沌的最优延时时间和最优质量。对duffing型系统的仿真结果表明，当反馈控制保持在有利水平时，有可能激励系统表现为混沌状态。进一步讨论了励磁频率和系统参数变化较大时的混沌化性能。研究结果还揭示了一个有趣的现象，即当激励频率大约低于8Hz时，最优时滞混沌化可以明显地降低甚至消除线谱，这可能会导致线谱降低水下航行器辐射噪声的应用。

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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2010 International Workshop on Chaos-Fractal Theories and Applications

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