gen_gts: Simulate a simts TS object using a theoretical model

Description

Create a gts object based on a time series model.

Usage

gen_gts(
  n,
  model,
  start = 0,
  end = NULL,
  freq = 1,
  unit_ts = NULL,
  unit_time = NULL,
  name_ts = NULL,
  name_time = NULL
)

Value

A gts object

Arguments

n: An integer containing the length of the time series.
model: A ts.model or simts object containing the available models in the simts package.
start: A numeric that provides the time of the first observation.
end: A numeric that provides the time of the last observation.
freq: A numeric that provides the rate of samples. Default value is 1.
unit_ts: A string that contains the unit expression of the time series. Default value is NULL.
unit_time: A string that contains the unit expression of the time. Default value is NULL.
name_ts: A string that provides an identifier for the time series data. Default value is NULL.
name_time: A string that provides an identifier for the time. Default value is NULL.

Author

James Balamuta and Wenchao Yang

Details

This function accepts either a ts.model object (e.g. AR1(phi = .3, sigma2 =1) + WN(sigma2 = 1)) or a simts object.

Examples

Run this code

# Set seed for reproducibility
set.seed(1336)
n = 1000

# AR1 + WN
model = AR1(phi = .5, sigma2 = .1) + WN(sigma2=1)
x = gen_gts(n, model)
plot(x)

# Reset seed
set.seed(1336)

# GM + WN
# Convert from AR1 to GM values
m = ar1_to_gm(c(.5,.1),10)

# Beta = 6.9314718, Sigma2_gm = 0.1333333
model = GM(beta = m[1], sigma2_gm = m[2]) + WN(sigma2=1)
x2 = gen_gts(n, model, freq = 10, unit_time = 'sec')
plot(x2)

# Same time series
all.equal(x, x2, check.attributes = FALSE)

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