V. Lanza, L. Ponta, M. Bonnin, F. Corinto
Published 2010-07-15Version 1
Systems with the coexistence of different stable attractors are widely exploited in systems biology in order to suitably model the differentiating processes arising in living cells. In order to describe genetic regulatory networks several deterministic models based on systems of nonlinear ordinary differential equations have been proposed. Few studies have been developed to characterize how either an external input or the coupling can drive systems with different coexisting states. For the sake of simplicity, in this manuscript we focus on systems belonging to the class of radial isochron clocks that exhibits hard excitation, in order to investigate their complex dynamics, local and global bifurcations arising in presence of constant external inputs. In particular the occurrence of saddle node on limit cycle bifurcations is detected.
Complex Dynamics of the Difference Equation $\displaystyle z_{n+1}=\fracα{z_{n}}+ \fracβ{z_{n-1}}$
Complex dynamics in several variables
The no lakes of Wada theorem in complex dynamics and a new entry in Sullivan's dictionary
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