This version of the Lotka predator-prey model (Gillespie 1977; Kot 2001) is given by
dY1/dt = c1*Y1 - c2*Y1*Y2
dY2/dt = c2*Y1*Y2 - c3*Y2
consisting of the three reaction channels,
Y1 --c1--> Y1 + Y1
Y1 + Y2 --c2--> Y2 + Y2
Y1 --c3--> 0
Define parameters
library(GillespieSSA2)
<- "Lotka Predator-Prey model"
sim_name <- c(c1 = 10, c2 = .01, c3 = 10)
params <- 2
final_time <- c(Y1 = 1000, Y2 = 1000) initial_state
Define reactions
<- list(
reactions reaction("c1 * Y1", c(Y1 = +1)),
reaction("c2 * Y1 * Y2", c(Y1 = -1, Y2 = +1)),
reaction("c3 * Y2", c(Y2 = -1))
)
Run simulations with the Exact method
set.seed(1)
<- ssa(
out 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)
<- ssa(
out initial_state = initial_state,
reactions = reactions,
params = params,
final_time = final_time,
method = ssa_etl(tau = .002),
sim_name = sim_name
) plot_ssa(out)
Run simulations with the Binomial tau-leap method
set.seed(1)
<- ssa(
out initial_state = initial_state,
reactions = reactions,
params = params,
final_time = final_time,
method = ssa_btl(mean_firings = 100),
sim_name = sim_name
) plot_ssa(out)