mcmc_estimate: Markov Chain parameter estimates
In demodelr: Simulating Differential Equations with Data
View source: R/mcmc_estimate.R
mcmc_estimate R Documentation
Markov Chain parameter estimates
Description
mcmc_estimate Computes and Markov Chain Monte Carlo parameter estimate for a given model
Usage
mcmc_estimate(
model,
data,
parameters,
iterations = 1,
knob_flag = FALSE,
mode = "emp",
initial_condition = NULL,
deltaT = NULL,
n_steps = NULL
)
Arguments
model
the model equations that we use to compute the result.
data
the data used to assess the model
parameters
a data frame that lists the names of the parameters along with upper and lower bounds
iterations
the number of iterations we wish to run the MCMC for.
knob_flag
determines if we tune the range that can be search (annealing)
mode
two choices: emp –> empirical (default) or de –> differential equations. The estimator works differently depending on which is used.
initial_condition
The initial condition for the differential equation (DE mode only)
deltaT
The length between timesteps (DE mode only)
n_steps
The number of time steps we run the model (DE mode only)
Value
A dataframe: the first column is the accept flag of the mcmc run (TRUE/FALSE), the log likelihood, and the parameter values
See Also
mcmc_analyze
Examples
## Example with an empirical model:
## Step 1: Define the model and parameters
phos_model <- daphnia ~ c * algae^(1 / theta)
phos_param <- tibble::tibble( name = c("c", "theta"),
lower_bound = c(0, 1),
upper_bound = c(2, 20))
## Step 2: Determine MCMC settings
# Define the number of iterations
phos_iter <- 1000
## Step 3: Compute MCMC estimate
phos_mcmc <- mcmc_estimate(model = phos_model,
data = phosphorous,
parameters = phos_param,
iterations = phos_iter)
## Example with a differential equation:
## Step 1: Define the model, parameters, and data
## Define the tourism model
tourism_model <- c(dRdt ~ resources * (1 - resources) - a * visitors,
dVdt ~ b * visitors * (resources - visitors))
# Define the parameters that you will use with their bounds
tourism_param <- tibble::tibble( name = c("a", "b"),
lower_bound = c(10, 0),
upper_bound = c(30, 5))
## Step 2: Determine MCMC settings
# Define the initial conditions
tourism_init <- c(resources = 0.995, visitors = 0.00167)
deltaT <- .1 # timestep length
n_steps <- 15 # must be a number greater than 1
# Define the number of iterations
tourism_iter <- 1000
## Step 3: Compute MCMC estimate
tourism_out <- mcmc_estimate(
model = tourism_model,
data = parks,
parameters = tourism_param,
mode = "de",
initial_condition = tourism_init, deltaT = deltaT,
n_steps = n_steps,
iterations = tourism_iter)
demodelr documentation built on Sept. 16, 2022, 5:07 p.m.
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View source: R/mcmc_estimate.R
| mcmc_estimate | R Documentation |
Markov Chain parameter estimates
Description
mcmc_estimate Computes and Markov Chain Monte Carlo parameter estimate for a given model
Usage
mcmc_estimate( model, data, parameters, iterations = 1, knob_flag = FALSE, mode = "emp", initial_condition = NULL, deltaT = NULL, n_steps = NULL )
Arguments
model |
the model equations that we use to compute the result. |
data |
the data used to assess the model |
parameters |
a data frame that lists the names of the parameters along with upper and lower bounds |
iterations |
the number of iterations we wish to run the MCMC for. |
knob_flag |
determines if we tune the range that can be search (annealing) |
mode |
two choices: emp –> empirical (default) or de –> differential equations. The estimator works differently depending on which is used. |
initial_condition |
The initial condition for the differential equation (DE mode only) |
deltaT |
The length between timesteps (DE mode only) |
n_steps |
The number of time steps we run the model (DE mode only) |
Value
A dataframe: the first column is the accept flag of the mcmc run (TRUE/FALSE), the log likelihood, and the parameter values
See Also
mcmc_analyze
Examples
## Example with an empirical model:
## Step 1: Define the model and parameters
phos_model <- daphnia ~ c * algae^(1 / theta)
phos_param <- tibble::tibble( name = c("c", "theta"),
lower_bound = c(0, 1),
upper_bound = c(2, 20))
## Step 2: Determine MCMC settings
# Define the number of iterations
phos_iter <- 1000
## Step 3: Compute MCMC estimate
phos_mcmc <- mcmc_estimate(model = phos_model,
data = phosphorous,
parameters = phos_param,
iterations = phos_iter)
## Example with a differential equation:
## Step 1: Define the model, parameters, and data
## Define the tourism model
tourism_model <- c(dRdt ~ resources * (1 - resources) - a * visitors,
dVdt ~ b * visitors * (resources - visitors))
# Define the parameters that you will use with their bounds
tourism_param <- tibble::tibble( name = c("a", "b"),
lower_bound = c(10, 0),
upper_bound = c(30, 5))
## Step 2: Determine MCMC settings
# Define the initial conditions
tourism_init <- c(resources = 0.995, visitors = 0.00167)
deltaT <- .1 # timestep length
n_steps <- 15 # must be a number greater than 1
# Define the number of iterations
tourism_iter <- 1000
## Step 3: Compute MCMC estimate
tourism_out <- mcmc_estimate(
model = tourism_model,
data = parks,
parameters = tourism_param,
mode = "de",
initial_condition = tourism_init, deltaT = deltaT,
n_steps = n_steps,
iterations = tourism_iter)
R Package Documentation
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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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