最后,研究了混沌信号的分解预测。
研究了一类混沌信号的二相编码问题。
最后将混沌信号用于系统的特性分析中。
At last Chaotic signal is applied into the analysis of system characteristic.
在测试中,混沌信号发生器产生的效果比其他方式更好。
In tests, the chaotic signal produced better results than the other approaches.
对随机信号和混沌信号的特性进行了分析比较。
The characteristics of stochastic and chaotic signals have been studied.
因为混沌信号不会互相干扰,在同一地区能够进行更多的管理。
As chaos signals do not interfere with each other, many could operate in the same area.
给出了凸函数品质因数在混沌信号分析中的应用实例。
An application of the quality factor of convex function to chaotic signal analysis was given.
混沌信号高度的初值敏感性,使得密钥具有非常大的取值空间。
The key space is considerable large because of chaotic signal's high sensitivity to initial values.
利用奇异系统分析方法研究了低信噪比混沌信号的相空间重构。
The state space reconstruction of chaotic signals having low S/N ratio was investigated by means of Singular System Analysis (SSA).
混沌信号具有遍历性、非周期、连续宽带频谱、似噪声的特性。
Chaotic signal has the properties of ergodicity, nonperiodicity, continuous broadband power spectra, and noise like etc.
同时,将信息信号直接叠加在发射的混沌信号中驱动接收系统。
At the same time, the information is directly added to the chaotic signal in transmission to drive the receiving system.
多个混合混沌信号的分离,在混沌及其应用中是一个重要的问题。
Separation of multiple mixing chaotic signals is an important issue in chaos and its applications.
混沌信号具有天然的随机性,可以作为序列密码应用于信息加密。
The chaotic signal, which possesses natural randomness, can be used for information encryption as sequence cipher.
设计了一种结构简单、易于实现、便于控制的宽带混沌信号产生电路。
Design a generating circuit of the wideband chaotic signals. The circuit has properties of the simple structure, easy implementation and convenient control.
混沌系统或混沌信号的同步理论,是混沌应用于模拟保密通信的基础。
Chaos synchronization is the foundation of the application of chaos to analog secure communication.
因此,研究并开发新的混沌信号发生器对混沌理论推向实用化至关重要。
So, it is vital to study and develop new chaotic signal generator and push Chaos theory to good use.
提出了一种发送端与接收端混沌信号产生器“不对称”的保密通信方案。
A secure communication scheme based on the asymmetric structure of chaotic signal generators of the transmitter and the receiver is proposed.
色散能够改变混沌信号每个频谱分量相位,但不影响混沌信号频谱形状;
The dispersion can change the phase of frequency spectrum component of the chaotic signal, however, it cannot affect the spectrum shape of the chaotic signal.
本文给出了一种利用线性输出神经网络实现标量混沌信号同步控制的方法。
An approach to the control and synchronization of the scalar chaotic signal by means of neural networks with linear outputs is presented.
基于局部相关原理,提出了一种可以有效实现混沌信号和噪声分离的方法。
Based on the local correlation principle, a practical method was put forth to separate chaotic signal from noise background.
通用系统的输出在控制器与自适应律的控制下,渐近同步于任意标量混沌信号。
Using the controller and the parameter adaptive laws proposed, the output of the general system asymptotically synchronizes with any scalar chaotic signal.
将随机调制模式中的随机部分用混沌信号替代,得到了多种混沌开关调制模式。
Replaced the random signals with chaotic signals, all kinds chaotic switching modulation mode can be obtained.
混沌信号发生器是一种混沌系统,也是构成混沌通信与保密通信系统的首要环节。
Chaotic signal generator is one chaotic system which is the first part of chaotic communication and secret communication system.
对光纤混沌传输理论及混沌信号与光纤传输媒介相互作用的物理机制进行了理论研究。
Theory of chaotic signal transmission in optical fiber and physical mechanism of chaotic signal acting on optical fiber transmission medium are theoretically studied.
混沌信号具有类随机的性质,这就使得混沌信号越来越广泛的应用于保密通信系统中。
The chaotic signals have the quality of genus-randomness, so that the application of chaotic signals is more and more widely used in the secure communication.
现有的混合混沌信号分离方法一般都要利用各个混沌信号的内在性质以及一定的约束。
The results by computer simulation indicate that the mixed chaotic signals, by using the method, the source signals can be separated fast and effectively.
通过耦合激光混沌系统和光纤传输信道,提出光纤混沌信号传输的非线性演化物理模型。
A physical model of nonlinear evolution of chaotic signal propagation in optical fiber is presented by coupling chaotic laser system with optical fiber channel.
采用DSP技术产生混沌信号,再量化、编码成二值序列,用来调制uw B脉冲信号。
Chaotic sequences were generated, quantized and coded into binary sequences which were used for modulation of UWB signal based on DSP technology.
利用混沌信号作为载体实现信息通讯,其关键问题是发射机系统与接收机系统的混沌同步。
How to synchronize the chaos signals between chaos systems of transmitter and receiver is the key problem of applications of chaos in communication.
利用混沌信号作为载体实现信息通讯,其关键问题是发射机系统与接收机系统的混沌同步。
How to synchronize the chaos signals between chaos systems of transmitter and receiver is the key problem of applications of chaos in communication.
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