The function reshapes the output given by micSim or by micSimParallel into wide format. In wide format, the data comprises for each episode which an individual experiences additional column entries.
● Data Source:
CranContrib
● Keywords:
● Alias: convertToWideFormat
●
0 images
|
The function micSimParallel is a parallelized version of the function micSim. That is, it runs a continuous-time microsimulation simulation distributed, i.e., using more than one CPU core.
● Data Source:
CranContrib
● Keywords:
● Alias: micSimParallel
●
0 images
|
The function buildTransitionMatrix supports the constructing of the ‘transition matrix’, which determines the transition pattern of the microsimulation model. The actual microsimulation is performed by micSim (sequentially) or by micSimParallel (parallel computing).
● Data Source:
CranContrib
● Keywords:
● Alias: buildTransitionMatrix
●
0 images
|
Performs a continuous-time microsimulation run (sequentially, i.e., using only one CPU core).
● Data Source:
CranContrib
● Keywords:
● Alias: micSim
●
0 images
|
The function sets the simulation horizon of the microsimulation. The actual microsimulation is performed by micSim (sequentially) or by micSimParallel (parallel computing).
● Data Source:
CranContrib
● Keywords:
● Alias: setSimHorizon
●
0 images
|
In demography, the central device of microsimulations is the life-course of an individual, which is defined by the sequence of states that the individual visits over time, and the waiting times between these state transitions. Modelling and simulating the life courses of a representative share of population members allows mapping population dynamics on a very detailed scale.
● Data Source:
CranContrib
● Keywords: package
● Alias: MicSim, MicSim-package
●
0 images
|
The function reshapes the output given by micSim or by micSimParallel into long format. In long format, the data comprises for each episode which an individual experiences one row.
● Data Source:
CranContrib
● Keywords:
● Alias: convertToLongFormat
●
0 images
|