Data and results for `PARAMETER SENSITIVITY` simulations. Simulations of three parameters (crowding tolerance, metabolic preference, migratory threshold) varied +/- 10, 20, 30, 40, 50, 60, 70, 80, 90, and 100% from baseline values. Each condition is run for 15 days (21600 ticks) with 20 replicates (random seeds 0 - 19). Cells are introduced to the center of the constant source environment after a 1 day delay. Snapshots are taken every 0.5 days (720 ticks). The data folder contains .tar.xz compressed replicate sets. The results folder contains .pkl files of data parsed into arrays. Simulations are labeled as: [parameter]_[percent] - [parameter] - max_height = crowding tolerance parameter - meta_pref = metabolic preference parameter...
Data and results for `ESTIMATED HEMODYNAMICS` simulations. Simulations of cancerous cells in colony...
Quantitative modeling is useful for predicting behaviors of a system and for rationally constructing...
Understanding how cells proliferate, migrate and die in various environments is essential in determi...
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 `DEFAULT` simulations. Simulations of default conditions. For colony, only can...
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 `GROWTH CONTEXT` simulations. Simulations of all possible combinations of four...
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...
Quantitative modeling is useful for predicting behaviors of a system and for rationally constructing...
Understanding how cells proliferate, migrate and die in various environments is essential in determi...
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 `DEFAULT` simulations. Simulations of default conditions. For colony, only can...
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 `GROWTH CONTEXT` simulations. Simulations of all possible combinations of four...
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...
Quantitative modeling is useful for predicting behaviors of a system and for rationally constructing...
Understanding how cells proliferate, migrate and die in various environments is essential in determi...