Effects of Nonlinear Time-Delay on a Stochastic Asymmetric System
WANG Jiu-Yun1,2 , ZHU Chun-Lian1,3 , JIA Ya1 , LI Jia-Rong1
1 School of Physics, Huazhong Normal University, Wuhan 430079
2 Department of Physics, Xianning College, Xianning 437000
3 Department of Physics, Jianghan University, Wuhan 430056
Effects of Nonlinear Time-Delay on a Stochastic Asymmetric System
WANG Jiu-Yun1,2 ;ZHU Chun-Lian1,3 ;JIA Ya1 ;LI Jia-Rong1
1 School of Physics, Huazhong Normal University, Wuhan 430079
2 Department of Physics, Xianning College, Xianning 437000
3 Department of Physics, Jianghan University, Wuhan 430056
关键词 :
05.40.-a ,
87.10.+e
Abstract : We numerically investigate the effects of nonlinear time-delay on the stochastic system. With the delay time increasing, it is found that the peak of probability distribution in low steady states is decreased, and the peak of probability distribution in high steady states is increased. The mean of state variable, the normalized variance, and the normalized autocorrelation function which quantifies the concentrated degree are slowly varied for small delay time. However, the mean of state variable is rapidly increased, and the normalized variance and the normalized autocorrelation function is rapidly decreased for large delay time.
Key words :
05.40.-a
87.10.+e
出版日期: 2006-06-01
:
05.40.-a
(Fluctuation phenomena, random processes, noise, and Brownian motion)
87.10.+e
引用本文:
WANG Jiu-Yun;ZHU Chun-Lian;JIA Ya;LI Jia-Rong. Effects of Nonlinear Time-Delay on a Stochastic Asymmetric System[J]. 中国物理快报, 2006, 23(6): 1398-1401.
链接本文:
https://cpl.iphy.ac.cn/CN/
或
https://cpl.iphy.ac.cn/CN/Y2006/V23/I6/1398
[1]
CHEN Yue-Hua;WU Zhi-Yuan;YANG Jun-Zhong. Noise-Mediated Generalized Synchronization
[2]
WANG Guang-Li;HUANG Shi-Yong;ZHANG Ying-Ying;LIANG Pei-Ji. Contrast Adaptation Decreases Complexity in Retinal Ganglion Cell Spike Train
[3]
ZHANG Ji-Qian;HOU Zhong-Huai;XIN Hou-Wen. Neural Signal Tuned by Random Long-range Connections in Coupled FitzHugh--Nagumo Neurons Systems
[4]
LI Fang-Ting;JIA Xun. Dynamical Analysis of Protein Regulatory Network in Budding Yeast Nucleus
[5]
GUO Feng;ZHOU Yu-Rong;JIANG Shi-Qi;GU Tian-Xiang. Stochastic Resonance in an Over-Damped Bias Linear System with Dichotomous Noise
[6]
WANG Jun;MA Xiao-Yu;BAI Yi-Ming;CAO Li;WU Da-Jin. Stochastic Resonance in Quantum-Well Semiconductor Lasers
[7]
WU Li-Yan;LIU Zong-Hua. Enhancement of Information Transmission by Array Induced Stochastic Resonance in the Processes of Amplitude and Frequency Modulations
[8]
AO Bin;MA Xiao-Juan;LI Yun-Yun;ZHENG Zhi-Gang. Non-Local Coupling and Partial Synchronization in Chaotic Systems
[9]
CAI Shi-Min;ZHOU Pei-Ling;YANG Hui-Jie;YANG Chun-Xia;WANG Bing-Hong;ZHOU Tao;. Empirical Study on the Volatility of the Hang-Seng Index
[10]
WANG Mao-Sheng;HOU Zhong-Huai;XIN Hou-Wen. System-Size Induced Coherence Resonance in Coupled Minimal Cytosolic Ca2+ Oscillation Models
[11]
JIN Xin;LIANG Pei-Ji. Adaptive Regulation for Noise-Aided Weak Signal Detection in Spiking Neurons
[12]
KUANG Shen-Bing;WANG Jia-Fu;ZENG Ting. Frequency Selectivity Behaviour in the Auditory Midbrain: Implications of Model Study
[13]
NING Li-Juan;XU Wei. Mean First-Passage Time in Optical Bistable Systems
[14]
ZHU Ping;CHEN Shi-Bo;MEI Dong-Cheng. Intensity Correlation Function and Associated Relaxation Time of a Saturation Laser Model with Correlated Noises
[15]
MO Hua;YANG Li-Jian; JIA Ya. A Quantitative Analysis of Modulation of the Fast Excitatory Postsynaptic Potential of Neurons in Rat Sympathetic Ganglia by a Low-Intensity Laser
2006, Vol. 23 
