g_cfar2h: Generate a CFAR(2) Process with Heteroscedasticity and...

In ConvFuncTimeSeries/test_t: Nonlinear time series analysis

Description

Generate a convolutional functional autoregressive process of order 2 with heteroscedasticity, irregular observation locations.

Usage

g_cfar2h(tmax = 1001, grid = 1000, rho = 1, min_obs = 40,
  pois = 5, phi_func1 = NULL, phi_func2 = NULL, weight = NULL)

Arguments

tmax	length of time.
grid	the number of grid points used to constrcut the functional time series.
rho	parameter for O-U process (noise process).
min_obs	the minimum number of observations at each time.
pois	the mean for Poisson distribution. The number of observations at each follows a Poisson distribution plus min_obs.
phi_func1	the first convolutional function. Default is 0.5*x^2+0.5*x+0.13.
phi_func2	the second convolutional function. Default is 0.7*x^4-0.1*x^3-0.15*x.
weight	the weight function to determine the standard deviation of O-U process (noise process). Default is 1.

Value

The function returns a list with components:

cfar2	a tmax-by-(grid+1) matrix following a CFAR(1) process.
epsilon	the innovation at time tmax.

References

Liu, X., Xiao, H., and Chen, R. (2016) Convolutional autoregressive models for functional time series. Journal of Econometrics, 194, 263-282.

Examples

phi_func1= function(x){
return(0.5*x^2+0.5*x+0.13)
}
phi_func2= function(x){
return(0.7*x^4-0.1*x^3-0.15*x)
}
y=g_cfar2h(200,1000,1,40,5,phi_func1=phi_func1,phi_func2=phi_func2)

ConvFuncTimeSeries/test_t documentation built on May 29, 2019, 1:39 p.m.