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Rosenzweig-MacArthur Predator-Prey model
In GillespieSSA2: Gillespie's Stochastic Simulation Algorithm for Impatient People
set.seed(1)
knitr::opts_chunk$set(fig.width = 6, fig.height = 4)
if("package:GillespieSSA" %in% search()) detach("package:GillespieSSA", unload=TRUE)
Rosenzweig-MacArthur predator-prey model [@PinedaKrch2007].
dN/dt = r(1-N/K - alpha/(1+wN))NP
dP/dt = c*alpha/(1+wN))NP
This model has five reactions with the following per capita rates,
prey birth: b
prey death: d+(b-d)N/K
predation: alpha/(1+wN)
predator birth: c*alpha/(1+wN)N
predator death: g
Propensity functions:
a1 = b * N
a2 = (d+(b-d)N/K) * N
a3 = alpha/(1+wN) * N * P
a4 = c*alpha/(1+wN) * N * P
a5 = g * P
Define parameters
library(GillespieSSA2)
sim_name <- "Rosenzweig-MacArthur Predator-Prey model"
params <- c(
b = 2,
d = 1,
K = 1000,
alpha = 0.005,
w = 0.0025,
c = 2,
g = 2
)
final_time <- 10
initial_state <- c(N = 500, P = 500)
Define reactions
reactions <- list(
reaction("b * N", c(N = +1)),
reaction("(d + (b - d) * N / K) * N", c(N = -1)),
reaction("alpha / (1 + w * N) * N * P", c(N = -1)),
reaction("c * alpha / ( 1 + w * N) * N * P", c(P = +1)),
reaction("g * P", c(P = -1))
)
Run simulations with the Exact method
set.seed(1)
out <- ssa(
initial_state = initial_state,
reactions = reactions,
params = params,
final_time = final_time,
method = ssa_exact(),
sim_name = sim_name
)
plot_ssa(out)
Run simulations with the Explict tau-leap method
set.seed(1)
out <- ssa(
initial_state = initial_state,
reactions = reactions,
params = params,
final_time = final_time,
method = ssa_etl(tau = .01),
sim_name = sim_name
)
plot_ssa(out)
Run simulations with the Binomial tau-leap method
set.seed(1)
out <- ssa(
initial_state = initial_state,
reactions = reactions,
params = params,
final_time = final_time,
method = ssa_btl(),
sim_name = sim_name
)
plot_ssa(out)
References
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GillespieSSA2 documentation built on Jan. 24, 2023, 1:10 a.m.
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set.seed(1) knitr::opts_chunk$set(fig.width = 6, fig.height = 4) if("package:GillespieSSA" %in% search()) detach("package:GillespieSSA", unload=TRUE)
Rosenzweig-MacArthur predator-prey model [@PinedaKrch2007].
dN/dt = r(1-N/K - alpha/(1+wN))NP dP/dt = c*alpha/(1+wN))NP
This model has five reactions with the following per capita rates,
prey birth: b prey death: d+(b-d)N/K predation: alpha/(1+wN) predator birth: c*alpha/(1+wN)N predator death: g
Propensity functions:
a1 = b * N a2 = (d+(b-d)N/K) * N a3 = alpha/(1+wN) * N * P a4 = c*alpha/(1+wN) * N * P a5 = g * P
Define parameters
library(GillespieSSA2) sim_name <- "Rosenzweig-MacArthur Predator-Prey model" params <- c( b = 2, d = 1, K = 1000, alpha = 0.005, w = 0.0025, c = 2, g = 2 ) final_time <- 10 initial_state <- c(N = 500, P = 500)
Define reactions
reactions <- list( reaction("b * N", c(N = +1)), reaction("(d + (b - d) * N / K) * N", c(N = -1)), reaction("alpha / (1 + w * N) * N * P", c(N = -1)), reaction("c * alpha / ( 1 + w * N) * N * P", c(P = +1)), reaction("g * P", c(P = -1)) )
Run simulations with the Exact method
set.seed(1) out <- ssa( initial_state = initial_state, reactions = reactions, params = params, final_time = final_time, method = ssa_exact(), sim_name = sim_name ) plot_ssa(out)
Run simulations with the Explict tau-leap method
set.seed(1) out <- ssa( initial_state = initial_state, reactions = reactions, params = params, final_time = final_time, method = ssa_etl(tau = .01), sim_name = sim_name ) plot_ssa(out)
Run simulations with the Binomial tau-leap method
set.seed(1) out <- ssa( initial_state = initial_state, reactions = reactions, params = params, final_time = final_time, method = ssa_btl(), sim_name = sim_name ) plot_ssa(out)
References
Try the GillespieSSA2 package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
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