<p><i>d</i><sub>0</sub> = 0 for all parameter sets. The initial number of individuals for each simulation is <i>N</i><sub>0</sub> = <i>K</i>. The system is simulated for 500 time steps.</p
<p>The main parameters used in each simulation and the resulting calculated power exponent <i>b</i> ...
<p>Parameter settings used in the simulations (units for all rates are “per gene per generation”).</...
<p>(a) The system after 100 steps, (b) 200 steps, (c) 1000 steps, (f) almost complete victory of the...
<p>(a) the system after 1000 steps, (b) the system after 5800 steps, (c) the system after 11800 step...
<p>The parameter <i>c</i> is only used in the first scenario, where there is no proliferation. In th...
<p>Simulation Results: Parameter estimates resulting from simulation for the model with and without ...
The various conditions and parameter values for each cell type, where n indicates the number of cell...
<p>Model parameters varied in the simulations with the range of parameter values used in each simula...
<p>Simulation settings for parameters other than <i>a</i><sub>0</sub> and <i>b</i><sub>1</sub>.</p
<p><i>MB</i><sub><i>R</i></sub> = <i>MP</i><sub><i>W</i></sub> = <i>MC</i><sub><i>V</i></sub> = 100,...
<p>(a) Growth-rate distributions as a function of propagation time, computed from a Monte Carlo simu...
<p>Three representative phase portraits in <i>x</i> − <i>y</i>/<i>R</i><sub><i>M</i></sub> plane usi...
Parameters are of significant importance when using non-linearized models. A small shift in one para...
<p>* Only used when <i>C</i><sup>80</sup> > 10</p><p>** Only used when <i>C</i><sup>80</sup> > 20</p...
A simulation is an orchestrated series of operations used to model the behaviour of a system. The sy...
<p>The main parameters used in each simulation and the resulting calculated power exponent <i>b</i> ...
<p>Parameter settings used in the simulations (units for all rates are “per gene per generation”).</...
<p>(a) The system after 100 steps, (b) 200 steps, (c) 1000 steps, (f) almost complete victory of the...
<p>(a) the system after 1000 steps, (b) the system after 5800 steps, (c) the system after 11800 step...
<p>The parameter <i>c</i> is only used in the first scenario, where there is no proliferation. In th...
<p>Simulation Results: Parameter estimates resulting from simulation for the model with and without ...
The various conditions and parameter values for each cell type, where n indicates the number of cell...
<p>Model parameters varied in the simulations with the range of parameter values used in each simula...
<p>Simulation settings for parameters other than <i>a</i><sub>0</sub> and <i>b</i><sub>1</sub>.</p
<p><i>MB</i><sub><i>R</i></sub> = <i>MP</i><sub><i>W</i></sub> = <i>MC</i><sub><i>V</i></sub> = 100,...
<p>(a) Growth-rate distributions as a function of propagation time, computed from a Monte Carlo simu...
<p>Three representative phase portraits in <i>x</i> − <i>y</i>/<i>R</i><sub><i>M</i></sub> plane usi...
Parameters are of significant importance when using non-linearized models. A small shift in one para...
<p>* Only used when <i>C</i><sup>80</sup> > 10</p><p>** Only used when <i>C</i><sup>80</sup> > 20</p...
A simulation is an orchestrated series of operations used to model the behaviour of a system. The sy...
<p>The main parameters used in each simulation and the resulting calculated power exponent <i>b</i> ...
<p>Parameter settings used in the simulations (units for all rates are “per gene per generation”).</...
<p>(a) The system after 100 steps, (b) 200 steps, (c) 1000 steps, (f) almost complete victory of the...