rama
is an R interface to the GAMA
agent-based simulation platform. It allows to
- read an experiment of a model defined in a
.gaml
file, - manipulate this experiment, including generate experiment plans and
- run the simulations defined in an experiment plan.
An experiment is a group of simulations. A simulation is an execution of a given model with
- a given set of parameters values,
- a given set of observed variables,
- a duration of simulation and
- a seed value.
All the simulations of an experiment relate to the same model. In R, an
experiment belongs to the class experiment
that is an extension of the
class data.frame
. The creation and manipulation of experiments can
thus efficiently be performed with the data.frame
methods. The class
experiment
is also tidyverse-compliant,
which allows its insertion into pipelines (or workflows). Outputs of
experiment
runs are in an object of class experiment
too, with
fields corresponding to the simulation outputs, typically data frames of
time series of observed variables and / or links to snapshots that can
subsequently be assembled into movies. The R environment allows to
- create experimental designs (for example with the expand.grid() function),
- statistically explore results of simulation (how the parameters values influence the dynamics of the variables),
- perform sensitivity analysis of model’s parameters (how much each parameter quantitatively influences the outputs),
- estimate parameters values (model calibration) if real data are available for the model’s state variables.
In addition to above-mentionned data frame, an object of class
experiment
contains a link to a .gaml
file containing the GAML model
(input) and a link to a folder containing the outputs of
simulations. It is possible to change these links but potentially
dangerous and not advised. The .gaml
file can be visualized in R but
is not supposed to be modified by the user in R. Instead, a safe
practice is to develop the model in the
GAMA software and to reserve the use
of rama
to the design and exploitation of experiments’ simulations as
outlined above.
The package rama
contains one unique class, experiment
that contains
all the information of an experiment in a GAML model. This class is a
subclass of data.frame
as outlined
below:
Each row of an experiment
object corresponds to a simulation of the
experiment. The columns corresponds to four type of data:
- one column per parameter (whose names start with
p_
), - one column per monitored variable (whose names start with
r_
), - one column for the duration of the simulation (in number of time step),
- one column for the seed value of the simulation.
The name of the experiment, the links to input .gaml
file and
output directory, as well as the names of paramters and monitored
variables that are common to all the simulations of the experiment are
stored in the attributes of the experiment
object and can be handled
with accessor functions.
You can install rama
from GitHub with:
installed_packages <- row.names(installed.packages())
if (! "devtools" %in% installed_packages) install.packages("devtools")
if (! "rama" %in% installed_packages) devtools::install_github("r-and-gama/rama")
After loading, rama
needs to be configured, a step that basically
consists in linking rama
to a GAMA engine on the system. If GAMA is
not installed on the system it will download and install it for you:
setup_gama()
and follow instructions. Otherwise, you can input your local path to the
application Gama Platform, in this case the function will not be
interactive and will configure GAMA path for rama
:
setup_gama("path/to/gama")
rama
is developed under the umbrella of the IRD- and OUCRU-funded EID
JEAI by: