ARtCensReg: Censored autoregressive regression model with Student-t...
In ARCensReg: Fitting Univariate Censored Linear Regression Model with Autoregressive Errors
View source: R/ARtCensReg_final.R
ARtCensReg R Documentation
Censored autoregressive regression model with Student-t innovations
Description
It fits a univariate left, right, or interval censored linear regression model
with autoregressive errors considering Student-t innovations, through the SAEM algorithm.
It provides estimates and standard errors of the parameters, supporting missing
values on the dependent variable.
Usage
ARtCensReg(cc, lcl = NULL, ucl = NULL, y, x, p = 1, M = 10,
perc = 0.25, MaxIter = 400, pc = 0.18, nufix = NULL, tol = 1e-04,
show_se = TRUE, quiet = FALSE)
Arguments
cc
Vector of censoring indicators of length n, where n is the
total observations. For each observation: 0 if non-censored, 1 if censored/missing.
lcl, ucl
Vectors of length n that represent the lower and upper bounds
of the interval, which contains the observade value of the censored observation.
Default=NULL, indicating no-censored data. See details for more information.
y
Vector of responses of length n.
x
Matrix of covariates of dimension n \times l, where l is the
number of fixed effects including the intercept, if considered (in models which
include an intercept, x should contain a column of ones).
p
Order of the autoregressive process. It must be a positive integer value.
M
Size of the Monte Carlo sample generated in each step of the SAEM algorithm.
Default=10.
perc
Percentage of burn-in on the Monte Carlo sample. Default=0.25.
MaxIter
The maximum number of iterations of the SAEM algorithm. Default=400.
pc
Percentage of initial iterations of the SAEM algorithm with no memory. It is recommended that
50<MaxIter*pc<100. Default=0.18.
nufix
If the degrees of freedom (\nu) are unknown, nufix
should be equal to NULL; otherwise, it must be a number greater than 2.
tol
The convergence maximum error permitted.
show_se
TRUE or FALSE. Indicates if the standard errors should be
estimated. Default=TRUE.
quiet
TRUE or FALSE. Indicates if printing information should be
suppressed. Default=FALSE.
Details
The linear regression model with autocorrelated errors, defined as a discrete-time autoregressive (AR) process of order p, at time t is given by
Y_t = x_t^T \beta + \xi_t,
\xi_t = \phi_1 \xi_{t-1} + ... + \phi_p \xi_{t-p} + \eta_t, t=1,..., n,
where Y_t is the response variable, \beta = (\beta_1,..., \beta_l)^T is
a vector of regression parameters of dimension l, x_t = (x_{t1},..., x_{tl})^T
is a vector of non-stochastic regressor variables values, and \xi_t is the AR
error with \eta_t being a shock of disturbance following the Student-t distribution
with \nu degrees of freedom, \phi = (\phi_1,..., \phi_p)^T being the vector of AR
coefficients, and n denoting the sample size.
It is assumed that Y_t is not fully observed for all t.
For left censored observations, we have lcl=-Inf and ucl=V_t,
such that the true value Y_t \leq V_t. For right censoring, lcl=V_t
and ucl=Inf, such that Y_t \geq V_t. For interval censoring, lcl and ucl must be finite values, such that V_{1t} \leq Y_t \leq V_{2t}. Missing data can be defined by setting lcl=-Inf and ucl=Inf.
The initial values are obtained by ignoring censoring and applying maximum likelihood
estimation with the censored data replaced by their censoring limits. Moreover,
just set cc as a vector of zeros to fit a regression model with autoregressive
errors for non-censored data.
Value
An object of class "ARtpCRM" representing the AR(p) censored regression Student-t fit. Generic functions such as print and summary have methods to show the results of the fit. The function plot provides convergence graphics for the parameter estimates.
Specifically, the following components are returned:
beta
Estimate of the regression parameters.
sigma2
Estimated scale parameter of the innovation.
phi
Estimate of the autoregressive parameters.
nu
Estimated degrees of freedom.
theta
Vector of parameters estimate (\beta, \sigma^2, \phi, \nu).
SE
Vector of the standard errors of (\beta, \sigma^2, \phi, \nu).
yest
Augmented response variable based on the fitted model.
uest
Final estimated weight variables.
x
Matrix of covariates of dimension n \times l.
iter
Number of iterations until convergence.
criteria
Attained criteria value.
call
The ARtCensReg call that produced the object.
tab
Table of estimates.
cens
"left", "right", or "interval" for left, right, or interval censoring, respectively.
nmiss
Number of missing observations.
ncens
Number of censored observations.
converge
Logical indicating convergence of the estimation algorithm.
MaxIter
The maximum number of iterations used for the SAEM algorithm.
M
Size of the Monte Carlo sample generated in each step of the SAEM algorithm.
pc
Percentage of initial iterations of the SAEM algorithm with no memory.
time
Time elapsed in processing.
plot
A list containing convergence information.
Warning
This algorithm assumes that the first p values in the response vector are completely observed.
Author(s)
Katherine L. Valeriano, Fernanda L. Schumacher, and Larissa A. Matos
References
\insertRefdelyon1999convergenceARCensReg
\insertRefvaleriano2021censoredARCensReg
See Also
arima, ARCensReg
Examples
## Example 1: (p = l = 1)
# Generating a sample
set.seed(1234)
n = 80
x = rep(1, n)
dat = rARCens(n=n, beta=2, phi=.6, sig2=.3, x=x, cens='right', pcens=.05,
innov='t', nu=4)
# Fitting the model (quick convergence)
fit0 = ARtCensReg(dat$data$cc, dat$data$lcl, dat$data$ucl, dat$data$y, x,
M=5, pc=.12, tol=0.001)
fit0
## Example 2: (p = l = 2)
# Generating a sample
set.seed(783796)
n = 200
x = cbind(1, runif(n))
dat = rARCens(n=n, beta=c(2,1), phi=c(.48,-.2), sig2=.5, x=x, cens='left',
pcens=.05, innov='t', nu=5)
# Fitting the model with nu known
fit1 = ARtCensReg(dat$data$cc, dat$data$lcl, dat$data$ucl, dat$data$y, x,
p=2, M=15, pc=.20, nufix=5)
summary(fit1)
plot(fit1)
# Fitting the model with nu unknown
fit2 = ARtCensReg(dat$data$cc, dat$data$lcl, dat$data$ucl, dat$data$y, x,
p=2, M=15, pc=.20)
summary(fit2)
plot(fit2)
ARCensReg documentation built on Aug. 30, 2023, 1:09 a.m.
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View source: R/ARtCensReg_final.R
| ARtCensReg | R Documentation |
Censored autoregressive regression model with Student-t innovations
Description
It fits a univariate left, right, or interval censored linear regression model with autoregressive errors considering Student-t innovations, through the SAEM algorithm. It provides estimates and standard errors of the parameters, supporting missing values on the dependent variable.
Usage
ARtCensReg(cc, lcl = NULL, ucl = NULL, y, x, p = 1, M = 10,
perc = 0.25, MaxIter = 400, pc = 0.18, nufix = NULL, tol = 1e-04,
show_se = TRUE, quiet = FALSE)
Arguments
cc |
Vector of censoring indicators of length |
lcl, ucl |
Vectors of length |
y |
Vector of responses of length |
x |
Matrix of covariates of dimension |
p |
Order of the autoregressive process. It must be a positive integer value. |
M |
Size of the Monte Carlo sample generated in each step of the SAEM algorithm. Default=10. |
perc |
Percentage of burn-in on the Monte Carlo sample. Default=0.25. |
MaxIter |
The maximum number of iterations of the SAEM algorithm. Default=400. |
pc |
Percentage of initial iterations of the SAEM algorithm with no memory. It is recommended that
|
nufix |
If the degrees of freedom ( |
tol |
The convergence maximum error permitted. |
show_se |
|
quiet |
|
Details
The linear regression model with autocorrelated errors, defined as a discrete-time autoregressive (AR) process of order p, at time t is given by
Y_t = x_t^T \beta + \xi_t,
\xi_t = \phi_1 \xi_{t-1} + ... + \phi_p \xi_{t-p} + \eta_t, t=1,..., n,
where Y_t is the response variable, \beta = (\beta_1,..., \beta_l)^T is
a vector of regression parameters of dimension l, x_t = (x_{t1},..., x_{tl})^T
is a vector of non-stochastic regressor variables values, and \xi_t is the AR
error with \eta_t being a shock of disturbance following the Student-t distribution
with \nu degrees of freedom, \phi = (\phi_1,..., \phi_p)^T being the vector of AR
coefficients, and n denoting the sample size.
It is assumed that Y_t is not fully observed for all t.
For left censored observations, we have lcl=-Inf and ucl=V_t,
such that the true value Y_t \leq V_t. For right censoring, lcl=V_t
and ucl=Inf, such that Y_t \geq V_t. For interval censoring, lcl and ucl must be finite values, such that V_{1t} \leq Y_t \leq V_{2t}. Missing data can be defined by setting lcl=-Inf and ucl=Inf.
The initial values are obtained by ignoring censoring and applying maximum likelihood
estimation with the censored data replaced by their censoring limits. Moreover,
just set cc as a vector of zeros to fit a regression model with autoregressive
errors for non-censored data.
Value
An object of class "ARtpCRM" representing the AR(p) censored regression Student-t fit. Generic functions such as print and summary have methods to show the results of the fit. The function plot provides convergence graphics for the parameter estimates.
Specifically, the following components are returned:
beta |
Estimate of the regression parameters. |
sigma2 |
Estimated scale parameter of the innovation. |
phi |
Estimate of the autoregressive parameters. |
nu |
Estimated degrees of freedom. |
theta |
Vector of parameters estimate ( |
SE |
Vector of the standard errors of ( |
yest |
Augmented response variable based on the fitted model. |
uest |
Final estimated weight variables. |
x |
Matrix of covariates of dimension |
iter |
Number of iterations until convergence. |
criteria |
Attained criteria value. |
call |
The |
tab |
Table of estimates. |
cens |
"left", "right", or "interval" for left, right, or interval censoring, respectively. |
nmiss |
Number of missing observations. |
ncens |
Number of censored observations. |
converge |
Logical indicating convergence of the estimation algorithm. |
MaxIter |
The maximum number of iterations used for the SAEM algorithm. |
M |
Size of the Monte Carlo sample generated in each step of the SAEM algorithm. |
pc |
Percentage of initial iterations of the SAEM algorithm with no memory. |
time |
Time elapsed in processing. |
plot |
A list containing convergence information. |
Warning
This algorithm assumes that the first p values in the response vector are completely observed.
Author(s)
Katherine L. Valeriano, Fernanda L. Schumacher, and Larissa A. Matos
References
\insertRefdelyon1999convergenceARCensReg
\insertRefvaleriano2021censoredARCensReg
See Also
arima, ARCensReg
Examples
## Example 1: (p = l = 1)
# Generating a sample
set.seed(1234)
n = 80
x = rep(1, n)
dat = rARCens(n=n, beta=2, phi=.6, sig2=.3, x=x, cens='right', pcens=.05,
innov='t', nu=4)
# Fitting the model (quick convergence)
fit0 = ARtCensReg(dat$data$cc, dat$data$lcl, dat$data$ucl, dat$data$y, x,
M=5, pc=.12, tol=0.001)
fit0
## Example 2: (p = l = 2)
# Generating a sample
set.seed(783796)
n = 200
x = cbind(1, runif(n))
dat = rARCens(n=n, beta=c(2,1), phi=c(.48,-.2), sig2=.5, x=x, cens='left',
pcens=.05, innov='t', nu=5)
# Fitting the model with nu known
fit1 = ARtCensReg(dat$data$cc, dat$data$lcl, dat$data$ucl, dat$data$y, x,
p=2, M=15, pc=.20, nufix=5)
summary(fit1)
plot(fit1)
# Fitting the model with nu unknown
fit2 = ARtCensReg(dat$data$cc, dat$data$lcl, dat$data$ucl, dat$data$y, x,
p=2, M=15, pc=.20)
summary(fit2)
plot(fit2)
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