Title :
A Numerical Simulation on Coherence Resonance and Stochastic Synchrony
Author :
Luo, Zeju ; Song, Lihong
Author_Institution :
Res. Center of the Econ. of the upper Reaches of Yangtze River, Chong Qing Technol. & Bus. Univ., Chong Qing, China
Abstract :
Discussed a noise-driven excitable system both analytically and numerically. By analyzing the density distribution of trajectories, we find that the noise can induce the system to forward quite regular dynamics, the new phenomena related to the potential limit cycle are found for the first time. There exist stochastic synchronization in the case of coupling: for different initial conditions, there is an interval of the noise intensity in which the two subsystems reach synchrony from the view of probability distribution, for coupled two identical FHN systems, the synchronization takes place only for small noise intensities.
Keywords :
probability; resonance; signal processing; synchronisation; coherence resonance; different initial condition; noise driven excitable system; noise intensity; probability distribution; stochastic synchronization; trajectories density distribution; Artificial intelligence; Chromium; Coherence; Computational intelligence; Limit-cycles; Noise level; Numerical simulation; Rivers; Stochastic resonance; Stochastic systems; coherence resonance; excitable system; stochastic synchrony;
Conference_Titel :
Artificial Intelligence and Computational Intelligence, 2009. AICI '09. International Conference on
Conference_Location :
Shanghai
Print_ISBN :
978-1-4244-3835-8
Electronic_ISBN :
978-0-7695-3816-7
DOI :
10.1109/AICI.2009.203
