<p>(a) Potential rate (dE/dt) along the oscillation cycle, and (b) the original cycles presented in (a). The data corresponds to the cycles of Figure 3 for t<sub>N</sub> = 0.2.</p
<p>A) Flow diagram describing evolution between each possible combination of larval stage and type o...
<p>Each pie chart depict the evolutionary stable state that is induced by a particular combination o...
<p>(a) The average growth rate over an environmental cycle is plotted as a function of the phenotype...
A: Firing rate of the network with adaptation at the equilibrium ϕ(x0) for increasing adaptive coupl...
<p>Red circles represent the mean potential in each cycle. Experimental conditions as in Figure 3.</...
<p>A: Bifurcation diagram illustrating dependence of the relative spiking phase on frequency mismatc...
A: Phase diagram for the network with synaptic transmission. The only relevant parameter to assess t...
The temporal evolution of the cell cycle core oscillator according to Davidich and Bornholdt Boolean...
(a) The evolution of order parameter of the upper layer for the linear correlation. (b) and (c) show...
The evolution of the states of the system given by the differential equation in (1) starting with x0...
<p>Evolution of the aggregate output (left side) and growth rates of the aggregate output (right sid...
<p>Half-cycle duration expressed as a percentage of movement period (a) and non-linearity (NL) in mo...
The dashed line at cei = 1 indicates the interpopulation and intrapopulation inhibition are the same...
<p>A: The scheme of dedifferentiation (including reprogramming and differentiation) and transdiffere...
<p>Hysteresis at the upper boundary of the oscillatory range (where it exists) is indicated by arrow...
<p>A) Flow diagram describing evolution between each possible combination of larval stage and type o...
<p>Each pie chart depict the evolutionary stable state that is induced by a particular combination o...
<p>(a) The average growth rate over an environmental cycle is plotted as a function of the phenotype...
A: Firing rate of the network with adaptation at the equilibrium ϕ(x0) for increasing adaptive coupl...
<p>Red circles represent the mean potential in each cycle. Experimental conditions as in Figure 3.</...
<p>A: Bifurcation diagram illustrating dependence of the relative spiking phase on frequency mismatc...
A: Phase diagram for the network with synaptic transmission. The only relevant parameter to assess t...
The temporal evolution of the cell cycle core oscillator according to Davidich and Bornholdt Boolean...
(a) The evolution of order parameter of the upper layer for the linear correlation. (b) and (c) show...
The evolution of the states of the system given by the differential equation in (1) starting with x0...
<p>Evolution of the aggregate output (left side) and growth rates of the aggregate output (right sid...
<p>Half-cycle duration expressed as a percentage of movement period (a) and non-linearity (NL) in mo...
The dashed line at cei = 1 indicates the interpopulation and intrapopulation inhibition are the same...
<p>A: The scheme of dedifferentiation (including reprogramming and differentiation) and transdiffere...
<p>Hysteresis at the upper boundary of the oscillatory range (where it exists) is indicated by arrow...
<p>A) Flow diagram describing evolution between each possible combination of larval stage and type o...
<p>Each pie chart depict the evolutionary stable state that is induced by a particular combination o...
<p>(a) The average growth rate over an environmental cycle is plotted as a function of the phenotype...
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