Title :
Investigation nonlinear behavior of radon gas (222Rn)
Author :
Kamişlioğlu, Miraç ; Külahci, Fatih
Author_Institution :
Fiz. Bolumu, Firat Univ., Elazig, Turkey
Abstract :
For chaotic structure showed dynamic system chaos analysis are used phase space reconstruction, correlation dimension and maximum Lyapunov exponent method and such methods. Chaotic time series analysis method is benefit signal processing method for determine of nonlinear behavior of dynamic system. In this study, the methods explained for the chaotic analysis of the time series, which is obtained based on the discrete or continuous measurements of a variable. In this work, for dynamic system analysis, a time series occurred with radon (222Rn gas) concentration. Chaotic structure determine, the monitoring trajectory that is a quantitative analysis method and the qualitative analysis methods were used such as the Lyapunov exponent, correlation dimension and power spectrum analysis.
Keywords :
Lyapunov methods; aerodynamics; chaos; chemical analysis; correlation methods; nonlinear dynamical systems; radon; time series; 222Rn; chaotic structure determination; chaotic time series analysis; continuous variable measurements; correlation dimension; discrete variable measurements; dynamic system chaos analysis; maximum Lyapunov exponent method; nonlinear behavior determination; nonlinear radon gas behavior investigation; phase space reconstruction; power spectrum analysis; qualitative analysis; quantitative analysis; radon concentration; signal processing method; trajectory monitoring; Chaotic communication; Conferences; Correlation; Nonlinear dynamical systems; Signal processing; Time series analysis;
Conference_Titel :
Signal Processing and Communications Applications Conference (SIU), 2014 22nd
Conference_Location :
Trabzon
DOI :
10.1109/SIU.2014.6830202
