Exponential stability of impulsive stochastic genetic regulatory networks with time-varying delays and reaction-diffusion

Exponential stability of impulsive stochastic genetic regulatory networks with time-varying delays and reaction-diffusion

We present a mean-square exponential stability analysis for impulsive stochastic genetic regulatory networks (GRNs) with time-varying delays and reaction-diffusion driven by fractional Brownian motion (fBm). By constructing a Lyapunov functional and using linear matrix inequality for stochastic anal...

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Veröffentlicht in:Advances in difference equations 2016-11, Vol.2016 (1), p.1-17, Article 307
Hauptverfasser: Cao, Boqiang, Zhang, Qimin, Ye, Ming
Format: Artikel
Sprache:eng
Schlagworte:
Analysis
BASIC BIOLOGICAL SCIENCES
Brownian motion
Control systems
Delay
Difference and Functional Equations
exponential stability
factional Brownian motion
Functional Analysis
genetic regulatory networks
Genetics
Government regulations
impulsive
Mathematical analysis
Mathematics
MATHEMATICS AND COMPUTING
Mathematics and Statistics
Matrix methods
Networks
Ordinary Differential Equations
Partial Differential Equations
reaction-diffusion
Stability
Stability analysis
Stabilization
Stochasticity
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Zusammenfassung:We present a mean-square exponential stability analysis for impulsive stochastic genetic regulatory networks (GRNs) with time-varying delays and reaction-diffusion driven by fractional Brownian motion (fBm). By constructing a Lyapunov functional and using linear matrix inequality for stochastic analysis we derive sufficient conditions to guarantee the exponential stability of the stochastic model of impulsive GRNs in the mean-square sense. Meanwhile, the corresponding results are obtained for the GRNs with constant time delays and standard Brownian motion. An example is presented to illustrate our results of the mean-square exponential stability analysis.
ISSN:1687-1847
1687-1839
1687-1847
DOI:10.1186/s13662-016-1033-x