1·Therefore, the detected signal can be gained by detecting the intermittent chaotic periodicity of chaotic oscillator.
因此本文提出了通过检测混沌振子阵列的间歇混沌周期来检测微弱信号的新方法。
2·For the seismic prospecting data with additive noise, it has been put up to deal with the data using the chaotic oscillator system.
针对地震勘探资料中存在加性强随机噪声干扰,已经提出用混沌振子系统处理的方法技术。
3·It has been put up to detect the event using the chaotic oscillator detection system for the seismic prospecting data with additive noise.
针对地震勘探资料含加性强随机噪声,已提出用混沌振子系统检测同相轴的方法。
4·The characteristic frequency band is not fully used in some diagnosis methods. A non-linear method based on chaotic oscillator is presented.
针对当前的诊断方法没有充分利用其故障特征频带的问题,提出了基于混沌振子的滚动轴承故障的非线性诊断方法。
5·The weak signal can be detected by chaotic oscillator owing to its property of sensitive dependence on initial conditions and of immunity from noise.
利用混沌振子的初值敏感性和对噪声的免疫力可以检测微弱信号。
6·The complicated dynamic behavior is studied when the parameters are given, and the oscillator circuit of the chaotic system is designed.
研究了在给定参数时系统的复杂动力学行为,并设计实现了该混沌系统的振荡电路。
7·The effects of stochastic excitation on the period-doubling bifurcation and chaotic motions of the softening Duffing oscillator, are discussed in detail.
讨论了有界噪声激励对软弹簧杜芬振子的倍周期分岔至混沌运动的影响。
8·Study the Colpitts oscillator-based wideband chaotic circuits.
研究了基于考必兹电路的宽带混沌产生电路。