本文主要讨论了混沌电路的控制及其在通信中的若干应用。
This paper principally discussed the control of chaos circuits and some application in communication.
蔡氏混沌电路及变型蔡氏混沌电路是应用广泛的混沌模型之一。
Both Chua's circuit and modified Chua's circuit are chaotic models widely applied.
其次,采用系统参数开关调制策略,研究了两个超混沌电路的控制问题。
In the second place, controlling using strategy of system parameter switching modulation in two hyperchaotic circuits is studied.
它是通过混沌电路的耦合,使耦合轨道相互靠拢,轨道距离减少,从而抑制电路中的噪声。
By coupling of many chaotic circuits, orbits can be closed each other, distance can be shorted, and noise in measuring can be reduced.
给出了基本改进型和两级耦合后的信号产生电路仿真结果,并对这种混沌雷达信号源和单级考必兹混沌电路的输出信号频谱进行了比较。
The results of circuit simulation are given, and we compare the spectrum of output signal of the coupled circuit with that of modified Colpitts circuit.
当蔡氏电路用在混沌发生器时,仿真结果证实了提出的方法在跟踪和解调方面的能力。
Computer simulations, in which the Chuas circuit is used as the chaos generator, are presented to demonstrate the tracking ability and CSK demodulation of the proposed method.
该类电路中仅含有一个二端非线性电阻,该电阻的实现成为研究电路中的混沌现象极为重要的一个方面。
There is only one nonlinear element in these circuits and it is very important to realize this nonlinear resistor that chaotic of these circuits can be illustrated.
把非线性系统的微分几何理论与混沌系统的同步控制目标相结合,设计了蔡氏电路混沌系统的标量混沌信号同步控制的非线性反馈控制器。
Combining the nonlinear control system theory and the aim of chaos synchronization, we designed a nonlinear feedback controller for synchronizing the scalar output signal of Chua's Circuits system.
这种变型蔡氏电路为混沌通信和混沌现象的研究提供了一种新的混沌发生器。
The modified Chua's circuit is a new chaos generator for chaos communication and chaos phenomenon research.
采用逐段线性电路理论,对混沌产生的原理和方法进行了研究。
The circuit principle and the method of engendering the chaos are studied with piecewise linear circuit theory.
研究一个新的混沌系统与变形蔡氏电路系统的异结构同步问题。
Synchronization of new chaotic system and modified Chua's circuit system with different structure is studied.
在分析了一类分段线性映射的决定论混沌系统的基本特性后,设计了由开关电容电路等组成的模拟电路。
After analyzing the basic characteristic of a Piecewise Linearity Mapping, a design of analog circuits including switched capacitors is presented.
用有源器件构成的有源模拟电感代替蔡氏电路中的电感元件可以产生混沌而不影响其性能。
Active simulated inductances, which replace simulated parts in Cais circuit, can produce Chaos, but not affect the property.
本文研究了一种新型的混沌A/D转换器,这是一种基于非线性映射结构的非流水式ADC ,并提出基于开关电容的ADC电路设计。
This paper proposes a novel chaotic ADC, which is a kind of non pipeline ADC based on nonlinear map, and the circuit design based on switch capacitance for this ADC is also proposed.
并根据非直接耦合的蔡氏电路,观测到了高维超混沌系统的行为特征。
According to indirectly coupled Chua's circuit, we can observe high dimension hyperchaotic system's characteristic of behavior.
为了研究动力学系统和混沌中产生的跳跃随机性,利用能量平衡原理分析了二阶非线性电路的退化方程。
Chaos related discontinuity jumps in nonlinear dynamic systems were analyzed using a second order nonlinear circuit model and degenerative equations based on the energy balance principle.
根据理论分析结果,调节电路的参数,可以成功地看到不动点、倍周期、混沌现象。
According to the theoretical results, we adjust the circuit parameters and then can find the phenomena of fixed point, periodic attractor, and chaos.
结果应用模拟电路的非线性系统来模拟混沌,研制成混沌图像投影演示仪。
Results By applying the nonlinear simulating circuit system, the chaotic-image simulating instrument is made.
先利用混沌充放电电路将输入模拟量采集成一组二进制序列,然后对其进行分析,得到输入量的准确估计值。
Chaos circuit charge an analog input into a group of binary sequences collection, then analysis and get the accurate measuring inputs.
本文提出了一种减少混沌测量电路参数漂移的新方法。
An improved method of chaotic measurement to reduce the drift of parameter is presented in the paper.
一方面,利用混沌动力学能够对电力电子电路的行为进行更为深入、准确、全面的了解,从而便于进行工程设计;
Modeling power electronic circuits with chaotic dynamics can help us to learn more about dynamic behaviors of power electronic circuits, which is beneficial to engineering design.
这一简单电路可望在混沌神经网络,混沌通讯领域获得应用。
The simple circuit can be applied in chaotic neural network and chaotic communication.
基于混沌同步理论,设计出低噪声的混沌发射机和接收机电路,阐述了实现同步和保密通信的原理。
Based on the theory of chaotic synchronization, a chaotic transmitter and receiver circuit with low noise was proposed, and the principles of synchronization and secure communication were expounded.
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。
The complicated dynamic behavior is studied when the parameters are given, and the oscillator circuit of the chaotic system is designed.
从开关模式电源电路中固有的混沌现象出发,提出了应用组合参数控制改变电路工作状态降低电磁干扰水平的思路。
On the base of chaos inherent in the switched-mode power supply the idea is present to uses controlling parameters to change the state of the circuit to reduce EMI level.
变型蔡氏电路混沌同步的非线性反馈控制器的设计。
A nonlinear feedback controller is designed for chaos synchronization in modified Chua's circuits.
提出了一种新的混沌测量电路设计方法,它利用DSP仿真电子开关,与已有的测量方法相比,具有更好的线性度和更小的误差。
A new method of design chaotic measurement circuits is presented, it simulates the electronic switch by DSP. The new chaotic measurement system has better linearity and less error.
为了更确切地描述实际系统中的混沌现象,提出了一种变形蔡氏电路,它含有一个不对称非线性阻性元件。
In order to describe the actual chaotic systems exactly, a simple modified Chua s circuit is presented, which includes an asymmetric nonlinear resistive element.
为了研究不连续系统中的混沌行为,观察一个由比较器控制的,带有模拟开关的RLC非线性电路模型,此电路系统的行为可以用一个分段光滑映象来描述。
In order to study the chaotic behavior in the discontinuous system, a RLC nonlinear circuit model with an analogy switch was observed, which was described by a piecewise-continuous map.
为了研究不连续系统中的混沌行为,观察一个由比较器控制的,带有模拟开关的RLC非线性电路模型,此电路系统的行为可以用一个分段光滑映象来描述。
In order to study the chaotic behavior in the discontinuous system, a RLC nonlinear circuit model with an analogy switch was observed, which was described by a piecewise-continuous map.
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