共查询到18条相似文献,搜索用时 125 毫秒
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鲁池梅 《太赫兹科学与电子信息学报》2011,9(2):229-233
一个四翼混沌吸引子通过引入了两个线性反馈控制量构成一个新的四维四翼混沌系统,吸引子更加稳定、可靠,易于电路实现。文章分析了该四维四翼混沌系统的基本特性,并为实现该新系统设计了一个模拟电路,实验结果表明:数值仿真和电路实现具有很好的一致性。该系统有利于保密通信等基于混沌的实际应用。 相似文献
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通过对一个光滑三维二次混沌系统上引入一个新的状态反馈控制器,构造出一个新的四维超混沌系统。详细地分析了该系统平衡点的性质、超混沌吸引子相图、Lyapunov指数和分岔图等基本动力学特性。数值模拟结果表明,新的四维系统能随着参数变化呈现出周期态、拟周期态、混沌态和超混沌态等丰富的动力学行为。最后设计了硬件电路实验,也很好的证实了相关结果。 相似文献
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提出了一个新的四维Chen-Qi-like混沌系统.通过计算该系统的时间序列的Lyapunov指数谱、Lyapunov 维数、分岔图、Poincaré截面图等分析了控制参数变化时,系统的非线性动力学特征.结果表明该新系统不但和Chen-Qi 系统族有类似的性质,而且又呈现不同的非线性特征.在微分方程不变性原理基础上,运... 相似文献
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在基本Sprott-B混沌系统数学模型的基础上,引入一个控制参数进行系统改造,构建出一个恒定Lyapunov指数谱鲁棒混沌系统。通过相轨图、Lyapunov指数谱和分岔图等动力学工具对系统进行了仿真分析。研究结果表明,系统对唯一的控制参数保持恒定的Lyapunov指数谱,从而工作于鲁棒混沌状态,理论分析则揭示出控制参数对于系统的混沌振荡具有线性或非线性调幅作用。此外,在以改进的Euler算法进行离散化后,采用微控制器MSP430F249进行了实验验证,证明了系统的可实现性。 相似文献
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Based on the traditional Qi chaotic system,a novel unified chaotic system with the complex chaotic characteristics was constructed by adding the control parameters and modifying the nonlinear terms.Firstly,basic dynamical characteristics of chaotic system were analyzed,and phase portrait,time domain waveform diagram,Poincare mapping and power spectrum diagram were numerically simulated.Secondly,system parameters influence on chaotic system was discussed through Lyapunov exponent spectrum,bifurcation diagrams and chaotic signal amplitude.It was found that the unified chaotic system can generate the four new types of two-wing chaotic attractors with the multi-parameter invariable Lyapunov exponent spectrum characteristics.Meanwhile,there exist the functions of the global and local nonlinear amplitude modulation parameters.Thirdly,taking the first chaotic attractor of system as an example by introducing the two new types of nonlinear functions,the expansion of grid multi-wing attractor was realized.Finally,the hardware circuit of novel unified chaotic system was constructed.The four new types of chaotic attractors are observed experimentally,which is consistent with numerical simulation results and verified the feasibility of the proposed system. 相似文献
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基于最新提出的简化Lorenz混沌系统,采用线性控制策略,设计了一个超混沌系统。利用相图、Lyapunov指数谱、分岔图以及Poincaré截面分析方法,详细地研究了系统参数变化时简化Lorenz超混沌系统的动力学行为,数值仿真结果显示,Lyapunov指数谱与分岔图分析一致。采用分立元件,设计并实现了该系统的模拟电子电路,通过调节电路中的可变电阻,观察到了该系统的极限环、叉式分岔、倍周期分岔、混沌和超混沌,以及由倍周期分岔而进入混沌的道路等动力学现象。数值仿真和电路实验结果表明,该系统具有丰富的动力学特性,且电路实验结果与数值仿真相吻合。 相似文献
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讨论了基于虚拟仪器三维四翼混沌系统的研究模式,设计了软件系统,并给出三维四翼混沌系统电路原理图及其实验结果,证实基于虚拟仪器技术为研究非线性系统提供可行的方案,利用此方案进行实验,结果证明此实验系统具有良好的实验效果。与传统的自治混沌系统相比,此系统具有参数调节方便、易实现、可靠性高,实时性好等优点,该特点在保密通信等工程中有重要的应用。 相似文献
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In this paper, a new five-dimensional fractional-order chaotic system based on two nonlinear functions is constructed. The rich dynamical behaviors of the system are analyzed by phase diagram, bifurcation diagram and Lyapunov exponents spectrum. In addition, the complexity of the fractional-order system is analyzed through Spectral Entropy (SE) and Permutation Entropy (PE) algorithms. Meanwhile the phenomenon of coexisting infinite attractors is analyzed. Of particular concern is that the phenomenon of multi-state transition and intermittent oscillation chaos is found in this new chaotic system. Furthermore, the system is implemented on the DSP platform. To the best of the knowledge, these rich dynamical characteristics and complicated phenomena are of great reference value in chaotic image encryption and other fields. 相似文献
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This paper presents the digital implementation of fractional-order (FO) chaotic systems on Field Programmable Gate Array (FPGA). In the proposed work Simulink model of each chaotic system is first realized using HDL coder of MATLAB, wherein each coefficient and signal is represented using a fixed number of bits. The construced design is translated into VHDL code using hardware generation block. This code is further translated into bitstream file using Quartus software. The chaotic system is implemented by downloading the obtained bitstream file into Altera FPGA Cyclone IV E (EP4CE11529C7N) chip. A methodology has been developed to construct FO chaotic system using HDL coder. Five different FO chaotic systems, viz., Lorenz, Chen, Lü, Arneodo, and Lorenz Hyperchaotic system have been presented in the paper to illustrate the methodology. The systems have been implemented on FPGA platform. Analysis of each chaotic system is carried out on the basis of hardware resource utilization, static power analysis and synthesis frequency on FPGA. The results show that FPGA provides high-speed realizations with the desired accuracy and low power consumption for FO chaotic systems. 相似文献