Data and results for `DEFAULT` simulations. Simulations of default conditions. For colony, only cancerous cells are simulated for 15 days (21600 ticks) with 51 replicates (random seeds 0 - 50). Cells are introduced to the center of the constant source environment after a 1 day delay. For tissue, only healthy cells are simulated for 15 days (21600 ticks) with 51 replicates (random seeds 0 - 50). Cells are introduced to every location of the constant source environment at the start of the simulation. For the random simulations, cell agents use a random state rule set simulated for 15 days (21600 ticks) with 50 replicates (random seeds 0 - 49). Snapshots are taken every 0.5 days (720 ticks). The data folder contains .tar.xz compressed replica...
Data and results for `ESTIMATED HEMODYNAMICS` simulations. Simulations of cancerous cells in colony...
Data and results for `EXACT HEMODYNAMICS` simulations. Simulations of cancerous cells in colony and...
Data and results for `VASCULAR DAMAGE` simulations. Simulations of cancerous cells in colony and ti...
Data and results for `DEFAULT` simulations. Simulations of default conditions. For colony, only can...
Data and results for `GROWTH CONTEXT` simulations. Simulations of all possible combinations of four...
Data and results for `POPULATION HETEROGENEITY` simulations. Simulations of all possible combinatio...
Data and results for `POPULATION HETEROGENEITY` simulations. Simulations of all possible combinatio...
Data and results for `POPULATION HETEROGENEITY` simulations. Simulations of all possible combinatio...
Data and results for `POPULATION HETEROGENEITY` simulations. Simulations of all possible combinatio...
Data and results for `POPULATION HETEROGENEITY` simulations. Simulations of all possible combinatio...
Data and results for `PARAMETER SENSITIVITY` simulations. Simulations of three parameters (crowding...
Data and results for `CELL COMPETITION` simulations. Simulations of a modified population with one ...
Data and results for `CELL COMPETITION` simulations. Simulations of a modified population with one ...
Data and results for `CELL COMPETITION` simulations. Simulations of a modified population with one ...
Data and results for `MODULE COMPLEXITY` simulations. Simulations of population with different comb...
Data and results for `ESTIMATED HEMODYNAMICS` simulations. Simulations of cancerous cells in colony...
Data and results for `EXACT HEMODYNAMICS` simulations. Simulations of cancerous cells in colony and...
Data and results for `VASCULAR DAMAGE` simulations. Simulations of cancerous cells in colony and ti...
Data and results for `DEFAULT` simulations. Simulations of default conditions. For colony, only can...
Data and results for `GROWTH CONTEXT` simulations. Simulations of all possible combinations of four...
Data and results for `POPULATION HETEROGENEITY` simulations. Simulations of all possible combinatio...
Data and results for `POPULATION HETEROGENEITY` simulations. Simulations of all possible combinatio...
Data and results for `POPULATION HETEROGENEITY` simulations. Simulations of all possible combinatio...
Data and results for `POPULATION HETEROGENEITY` simulations. Simulations of all possible combinatio...
Data and results for `POPULATION HETEROGENEITY` simulations. Simulations of all possible combinatio...
Data and results for `PARAMETER SENSITIVITY` simulations. Simulations of three parameters (crowding...
Data and results for `CELL COMPETITION` simulations. Simulations of a modified population with one ...
Data and results for `CELL COMPETITION` simulations. Simulations of a modified population with one ...
Data and results for `CELL COMPETITION` simulations. Simulations of a modified population with one ...
Data and results for `MODULE COMPLEXITY` simulations. Simulations of population with different comb...
Data and results for `ESTIMATED HEMODYNAMICS` simulations. Simulations of cancerous cells in colony...
Data and results for `EXACT HEMODYNAMICS` simulations. Simulations of cancerous cells in colony and...
Data and results for `VASCULAR DAMAGE` simulations. Simulations of cancerous cells in colony and ti...