simulation: Stochastic Simulation
In pop: A Flexible Syntax for Population Dynamic Modelling
Description
Usage
Arguments
Details
Value
Examples
Description
Simulate a population dynamic model in discrete time, recording
the number of individuals in each state at each time point.
Usage
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simulation(dynamic, population, timesteps = 1, replicates = 1,
ncores = NULL)
is.simulation(x)
## S3 method for class 'simulation'
plot(x, states = NULL, patches = 1, ...)
Arguments
dynamic
a population dynamic model of class dynamic
population
a dataframe or named vector of positive integers, giving
the number of individuals in each state of dynamic. If a dataframe,
it should have only one row (as in the examples below), or as many rows as
patches in the metapopulation if a multi-patch landscape has been defined
for dynamic (using landscape). If a multi-patch
landscape has been defined for dynamic, but population has
only one row or is a vector, this population will be duplicated for all
patches in the landscape.
timesteps
a positive integer giving the number of time steps
(iterations) over which to simulate the model
replicates
a positive integer giving the number of independent time
series to simulate
ncores
an optional positive integer giving the number of cpu cores to
use when running simulations. By default (when ncores = NULL) all
cores are used (or as many as parallel::detectCores can find). This
argument is ignored is replicates = 1
x
a simulation object, or an object to be tested as a simulation
states
a character vector naming the states in the dynamic
object used to run the simulation that should be plotted. By default all of
them are.
patches
vector of positive integers identifying the patches for which
to plot the simulations. By default only projections for the first patch
are plotted.
...
further arguments passed to or from other methods.
Details
The order of the dynamics in the simulation is defined by the order
in which the transitions were passed to dynamic. I.e. if the stasis
probability of a life stage (e.g. fraction surviving and remaining in the
stage) was specified before the reproduction rate, then only those staying
in the state will reproduce. Conversely, if reproduction was given first,
individuals will reproduce before the stasis probability is applied.
Value
an object of class simulation
Examples
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# set up a three-stage model
stasis_egg <- tr(egg ~ egg, p(0.6))
stasis_larva <- tr(larva ~ larva, p(0.4))
stasis_adult <- tr(adult ~ adult, p(0.9))
hatching <- tr(larva ~ egg, p(0.35))
fecundity <- tr(egg ~ adult, r(20))
pupation <- tr(adult ~ larva, p(0.2))
pd <- dynamic(stasis_egg,
stasis_larva,
stasis_adult,
hatching,
pupation,
fecundity)
population <- data.frame(egg = 1200, larva = 250, adult = 50)
# simulate for 50 timesteps, 30 times
sim <- simulation(dynamic = pd,
population = population,
timesteps = 50,
replicates = 30,
ncores = 1)
is.simulation(sim)
par(mfrow = c(3, 1))
plot(sim)
Example output
[1] TRUE
pop documentation built on May 1, 2019, 10:16 p.m.
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Description Usage Arguments Details Value Examples
Description
Simulate a population dynamic model in discrete time, recording the number of individuals in each state at each time point.
Usage
1 2 3 4 5 6 7 | simulation(dynamic, population, timesteps = 1, replicates = 1,
ncores = NULL)
is.simulation(x)
## S3 method for class 'simulation'
plot(x, states = NULL, patches = 1, ...)
|
Arguments
dynamic |
a population dynamic model of class |
population |
a dataframe or named vector of positive integers, giving
the number of individuals in each state of |
timesteps |
a positive integer giving the number of time steps (iterations) over which to simulate the model |
replicates |
a positive integer giving the number of independent time series to simulate |
ncores |
an optional positive integer giving the number of cpu cores to
use when running simulations. By default (when |
x |
a |
states |
a character vector naming the states in the |
patches |
vector of positive integers identifying the patches for which to plot the simulations. By default only projections for the first patch are plotted. |
... |
further arguments passed to or from other methods. |
Details
The order of the dynamics in the simulation is defined by the order
in which the transitions were passed to dynamic. I.e. if the stasis
probability of a life stage (e.g. fraction surviving and remaining in the
stage) was specified before the reproduction rate, then only those staying
in the state will reproduce. Conversely, if reproduction was given first,
individuals will reproduce before the stasis probability is applied.
Value
an object of class simulation
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 | # set up a three-stage model
stasis_egg <- tr(egg ~ egg, p(0.6))
stasis_larva <- tr(larva ~ larva, p(0.4))
stasis_adult <- tr(adult ~ adult, p(0.9))
hatching <- tr(larva ~ egg, p(0.35))
fecundity <- tr(egg ~ adult, r(20))
pupation <- tr(adult ~ larva, p(0.2))
pd <- dynamic(stasis_egg,
stasis_larva,
stasis_adult,
hatching,
pupation,
fecundity)
population <- data.frame(egg = 1200, larva = 250, adult = 50)
# simulate for 50 timesteps, 30 times
sim <- simulation(dynamic = pd,
population = population,
timesteps = 50,
replicates = 30,
ncores = 1)
is.simulation(sim)
par(mfrow = c(3, 1))
plot(sim)
|
Example output
[1] TRUE
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