events_SISe: Example data to initialize events for the 'SISe' model
In SimInf: A Framework for Data-Driven Stochastic Disease Spread Simulations
events_SISe R Documentation
Example data to initialize events for the ‘SISe’ model
Description
Example data to initialize scheduled events for a population of
1600 nodes and demonstrate the SISe model.
Usage
events_SISe()
Details
Example data to initialize scheduled events (see
SimInf_events) for a population of 1600 nodes
and demonstrate the SISe model. The dataset
contains 466692 events for 1600 nodes distributed over 4 * 365
days. The events are divided into three types: ‘Exit’
events remove individuals from the population (n = 182535),
‘Enter’ events add individuals to the population (n =
182685), and ‘External transfer’ events move individuals
between nodes in the population (n = 101472). The vignette
contains a detailed description of how scheduled events operate on
a model.
Value
A data.frame
Examples
## For reproducibility, call the set.seed() function and specify
## the number of threads to use. To use all available threads,
## remove the set_num_threads() call.
set.seed(123)
set_num_threads(1)
## Create an 'SISe' model with 1600 nodes and initialize
## it to run over 4*365 days. Add one infected individual
## to the first node.
u0 <- u0_SISe()
u0$I[1] <- 1
tspan <- seq(from = 1, to = 4*365, by = 1)
model <- SISe(u0 = u0, tspan = tspan, events = events_SISe(),
phi = 0, upsilon = 1.8e-2, gamma = 0.1, alpha = 1,
beta_t1 = 1.0e-1, beta_t2 = 1.0e-1, beta_t3 = 1.25e-1,
beta_t4 = 1.25e-1, end_t1 = 91, end_t2 = 182,
end_t3 = 273, end_t4 = 365, epsilon = 0)
## Display the number of individuals affected by each event type
## per day.
plot(events(model))
## Run the model to generate a single stochastic trajectory.
result <- run(model)
## Summarize the trajectory. The summary includes the number of
## events by event type.
summary(result)
SimInf documentation built on June 22, 2024, 9:27 a.m.
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| events_SISe | R Documentation |
Example data to initialize events for the ‘SISe’ model
Description
Example data to initialize scheduled events for a population of
1600 nodes and demonstrate the SISe model.
Usage
events_SISe()
Details
Example data to initialize scheduled events (see
SimInf_events) for a population of 1600 nodes
and demonstrate the SISe model. The dataset
contains 466692 events for 1600 nodes distributed over 4 * 365
days. The events are divided into three types: ‘Exit’
events remove individuals from the population (n = 182535),
‘Enter’ events add individuals to the population (n =
182685), and ‘External transfer’ events move individuals
between nodes in the population (n = 101472). The vignette
contains a detailed description of how scheduled events operate on
a model.
Value
A data.frame
Examples
## For reproducibility, call the set.seed() function and specify
## the number of threads to use. To use all available threads,
## remove the set_num_threads() call.
set.seed(123)
set_num_threads(1)
## Create an 'SISe' model with 1600 nodes and initialize
## it to run over 4*365 days. Add one infected individual
## to the first node.
u0 <- u0_SISe()
u0$I[1] <- 1
tspan <- seq(from = 1, to = 4*365, by = 1)
model <- SISe(u0 = u0, tspan = tspan, events = events_SISe(),
phi = 0, upsilon = 1.8e-2, gamma = 0.1, alpha = 1,
beta_t1 = 1.0e-1, beta_t2 = 1.0e-1, beta_t3 = 1.25e-1,
beta_t4 = 1.25e-1, end_t1 = 91, end_t2 = 182,
end_t3 = 273, end_t4 = 365, epsilon = 0)
## Display the number of individuals affected by each event type
## per day.
plot(events(model))
## Run the model to generate a single stochastic trajectory.
result <- run(model)
## Summarize the trajectory. The summary includes the number of
## events by event type.
summary(result)
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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