euler: Euler's method solution for a differential equation.
In demodelr: Simulating Differential Equations with Data
euler R Documentation
Euler's method solution for a differential equation.
Description
euler solves a multi-dimensional differential equation with Euler's method. The parameters listed as required are needed
See the vignette for detailed examples of usage.
Usage
euler(
system_eq,
initial_condition,
parameters = NULL,
t_start = 0,
deltaT = 1,
n_steps = 1
)
Arguments
system_eq
(REQUIRED) The 1 or multi dimensional system of equations, written in formula notation as a vector (i.e. c(dx ~ f(x,y), dy ~ g(x,y)))
initial_condition
(REQUIRED) Listing of initial conditions, as a vector
parameters
The values of the parameters we are using (optional)
t_start
The starting time point (defaults to t = 0)
deltaT
The timestep length (defaults to 1)
n_steps
The number of timesteps to compute solution (defaults to n_steps = 1)
Value
A tidy of data frame for the calculated solutions and the time
See Also
rk4
Examples
# Define the rate equation:
lynx_hare_eq <- c(
dHdt ~ r * H - b * H * L,
dLdt ~ e * b * H * L - d * L
)
# Define the parameters (as a named vector):
lynx_hare_params <- c(r = 2, b = 0.5, e = 0.1, d = 1)
# Define the initial condition (as a named vector):
lynx_hare_init <- c(H = 1, L = 3)
# Define deltaT and the number of time steps:
deltaT <- 0.05
n_steps <- 200
# Compute the solution via Euler's method:
out_solution <- euler(system_eq = lynx_hare_eq,
parameters = lynx_hare_params,
initial_condition = lynx_hare_init,
deltaT = deltaT,
n_steps = n_steps
)
demodelr documentation built on Sept. 16, 2022, 5:07 p.m.
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| euler | R Documentation |
Euler's method solution for a differential equation.
Description
euler solves a multi-dimensional differential equation with Euler's method. The parameters listed as required are needed
See the vignette for detailed examples of usage.
Usage
euler( system_eq, initial_condition, parameters = NULL, t_start = 0, deltaT = 1, n_steps = 1 )
Arguments
system_eq |
(REQUIRED) The 1 or multi dimensional system of equations, written in formula notation as a vector (i.e. c(dx ~ f(x,y), dy ~ g(x,y))) |
initial_condition |
(REQUIRED) Listing of initial conditions, as a vector |
parameters |
The values of the parameters we are using (optional) |
t_start |
The starting time point (defaults to t = 0) |
deltaT |
The timestep length (defaults to 1) |
n_steps |
The number of timesteps to compute solution (defaults to n_steps = 1) |
Value
A tidy of data frame for the calculated solutions and the time
See Also
rk4
Examples
# Define the rate equation:
lynx_hare_eq <- c(
dHdt ~ r * H - b * H * L,
dLdt ~ e * b * H * L - d * L
)
# Define the parameters (as a named vector):
lynx_hare_params <- c(r = 2, b = 0.5, e = 0.1, d = 1)
# Define the initial condition (as a named vector):
lynx_hare_init <- c(H = 1, L = 3)
# Define deltaT and the number of time steps:
deltaT <- 0.05
n_steps <- 200
# Compute the solution via Euler's method:
out_solution <- euler(system_eq = lynx_hare_eq,
parameters = lynx_hare_params,
initial_condition = lynx_hare_init,
deltaT = deltaT,
n_steps = n_steps
)
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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