ARIMA: Arima with Ljung-Box
In FinTS: Companion to Tsay (2005) Analysis of Financial Time Series
ARIMA R Documentation
Arima with Ljung-Box
Description
Fit an ARIMA model and test residuals with the Ljung-Box statistic
Usage
ARIMA(x, order = c(0, 0, 0),
seasonal = list(order = c(0, 0, 0), period = NA),
xreg = NULL, include.mean = TRUE, transform.pars = TRUE,
fixed = NULL, init = NULL, method = c("CSS-ML", "ML", "CSS"),
n.cond, optim.control = list(), kappa = 1e6, Box.test.lag=NULL,
Box.test.df = c("net.lag", "lag"),
type = c("Ljung-Box", "Box-Pierce", "rank"))
Arguments
x
a univariate time series
order
A specification of the non-seasonal part of the ARIMA model: the
three components (p, d, q) are the AR order, the degree of
differencing, and the MA order.
seasonal
A specification of the seasonal part of the ARIMA model, plus the
period (which defaults to 'frequency(x)'). This should be a list
with components 'order' and 'period', but a specification of just a
numeric vector of length 3 will be turned into a suitable list with
the specification as the 'order'.
xreg
Optionally, a vector or matrix of external regressors, which must
have the same number of rows as 'x'.
include.mean
Should the ARMA model include a mean/intercept term? The default is
'TRUE' for undifferenced series, and it is ignored for ARIMA models
with differencing.
transform.pars
Logical. If true, the AR parameters are transformed to ensure that
they remain in the region of stationarity. Not used for 'method =
"CSS"'.
fixed
optional numeric vector of the same length as the total number of
parameters. If supplied, only 'NA' entries in 'fixed' will be
varied. 'transform.pars = TRUE' will be overridden (with a warning)
if any AR parameters are fixed. It may be wise to set
'transform.pars = FALSE' when fixing MA parameters, especially near
non-invertibility.
init
optional numeric vector of initial parameter values. Missing values
will be filled in, by zeroes except for regression coefficients.
Values already specified in 'fixed' will be ignored.
method
Fitting method: maximum likelihood or minimize conditional
sum-of-squares. The default (unless there are missing values) is to
use conditional-sum-of-squares to find starting values, then maximum
likelihood.
n.cond
Only used if fitting by conditional-sum-of-squares: the number of
initial observations to ignore. It will be ignored if less than the
maximum lag of an AR term.
optim.control
List of control parameters for 'optim'.
kappa
the prior variance (as a multiple of the innovations variance) for
the past observations in a differenced model. Do not reduce this.
Box.test.lag
the Box.test statistic will be based on 'Box.test.lag'
autocorrelation coefficients of the whitened residuals.
The default is the maximum of the following:
round(log(sum(!is.na(x)))), recommended by Tsay (p. 27).
One more than the number of parameters estimated, not counting any
'intercept' in the model.
Box.test.df
numeric or character variable indicating the degrees of freedom for
the ch-square approximation to the distribution of the Box.test
statistic. The default 'net.lag' is 'Box.test.lag' minus the number
of relevant parameters estimated. The primary alternative 'lag' is
the number of lags included in the computation of the statistic.
A positive number can also be provided.
type
which Box.test 'type' should be used? Partial matching is used.
The 'rank' alternative computes 'Ljung-Box' on rank(x); see Burns
(2002) and references therein.
NOTE: The default 'Ljung-Box' type generally seems to be more
accurate and popular than the earlier 'Box-Pierce', which is however
the default for 'Box.test'.
Details
1. Fit the desired model using 'arima'.
2. Compute the desired number of lags for Box.test
3. Apply 'AutocorTest' to the whitened residuals.
NOTE: Some software does not adjust the degrees of freedom for the
number of parameters estimated. Tsay (2005) and Enders (2004) do.
The need to adjust the degrees of freedom discussed by Brockwell and
Davis (1990), who provide a proof describing the circumstances under
which this is appropriate.
This is, however, an asymptotic result, and it would help to have
simulation studies of the distribution of the Ljung-Box statistic,
estimating degrees of freedom and evaluating goodness of fit. Burns
recommends a rank version of the Ljung-Box test, but does not estimate
degrees of freedom. If you have done such a simulation or know of a
reference describing such, would you please notify the maintainer of
this package?
4. If 'xreg' is supplied, compute r.squared.
Value
an 'arima' object with an additional 'Box.test' component and if
'xreg' is not null, an 'r.squared' component.
NOTE: The 'Box.test' help page in R 2.6.1 says, 'Missing values are
not handled.' However, if 'x' contains NAs, 'ARIMA' still returns a
numeric answer that seems plausible, at least in some examples.
Therefore, either this comment on the help page is wrong (or obsolete)
or the answer can not be trusted with NAs.
Author(s)
Spencer Graves for the ARIMA{FinTS} wrapper for
arima, written by the R Core Team, and
Box.test, written by A. Trapletti. John Frain
provided the citation to a proof in Brockwell and Davis (1990) that
the degrees of freedom for the approximating chi-square distribution
of the Ljung-Box statistic should be adjusted for the number of
parameters estimated. Michal Miklovic provided the citation to Enders
(2004).
References
Brockwell and Davis (1990) Time Series: Theory and Methods, 2nd
Edition (Springer, page 310).
Walter Enders (2004) Applied Econometric Time Series (Wiley,
pp. 68-69)
Greta Ljung and George E. P. Box (1978) 'On a measure of lack of fit
in time series models', Biometrika, vol. 66, pp. 67-72.
Ruey Tsay (2005) Analysis of Financial Time Series, 2nd ed. (Wiley,
ch. 2)
Patrick Burns (2002) 'Robustness of the Ljung-Box Test and its Rank
Equivalent',
https://www.burns-stat.com/pages/Working/ljungbox.pdf, accessed
2007.12.29.
See Also
arima
Box.test
tsdiag
Examples
##
## Examples from 'arima'
##
lh100 <- ARIMA(lh, order = c(1,0,0))
lh100$Box.test
# df = 3 = round(log(lh)) - 1
# 2 parameters are estimated, but 1 is 'intercept',
# so it doesn't count in the 'df' computation
lh500 <- ARIMA(lh, order = c(5,0,0))
lh500$Box.test
# round(log(length(lh))) = 4
# Default Box.test.lag = min(5+1, 4) = 6,
# so df = 1; without the min(5+1, ...), it would be -1.
lh500$Box.test$method # lag = 6
lh101 <- ARIMA(lh, order = c(1,0,1))
lh101$Box.test
# works with mixed ARMA
USAccD011 <- ARIMA(USAccDeaths, order = c(0,1,1),
seasonal = list(order=c(0,1,1)))
USAccD011$Box.test
# df = round(log(length(USAccDeaths))) - 2:
# correct 'df' with nonstationary 'seasonal' as well
LakeH200 <- ARIMA(LakeHuron, order = c(2,0,0),
xreg = time(LakeHuron)-1920)
LakeH200$Box.test
# correct 'df' with 'xreg'
LakeH200$r.squared
## presidents contains NAs
## graphs in example(acf) suggest order 1 or 3
require(graphics)
(fit1 <- ARIMA(presidents, c(1, 0, 0)))
fit1$Box.test
tsdiag(fit1)
##
## Example with multiple 'xreg' variables
##
tLH <- as.numeric(time(LakeHuron)-1920)
tLH2 <- cbind(timeLH.1920 = tLH, time.sq = tLH*tLH)
LakeH200. <- ARIMA(LakeHuron, order=c(2,0,0), xreg=tLH2)
LakeH200.$r.squared
FinTS documentation built on Jan. 27, 2024, 3:01 a.m.
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| ARIMA | R Documentation |
Arima with Ljung-Box
Description
Fit an ARIMA model and test residuals with the Ljung-Box statistic
Usage
ARIMA(x, order = c(0, 0, 0),
seasonal = list(order = c(0, 0, 0), period = NA),
xreg = NULL, include.mean = TRUE, transform.pars = TRUE,
fixed = NULL, init = NULL, method = c("CSS-ML", "ML", "CSS"),
n.cond, optim.control = list(), kappa = 1e6, Box.test.lag=NULL,
Box.test.df = c("net.lag", "lag"),
type = c("Ljung-Box", "Box-Pierce", "rank"))
Arguments
x |
a univariate time series |
order |
A specification of the non-seasonal part of the ARIMA model: the three components (p, d, q) are the AR order, the degree of differencing, and the MA order. |
seasonal |
A specification of the seasonal part of the ARIMA model, plus the period (which defaults to 'frequency(x)'). This should be a list with components 'order' and 'period', but a specification of just a numeric vector of length 3 will be turned into a suitable list with the specification as the 'order'. |
xreg |
Optionally, a vector or matrix of external regressors, which must have the same number of rows as 'x'. |
include.mean |
Should the ARMA model include a mean/intercept term? The default is 'TRUE' for undifferenced series, and it is ignored for ARIMA models with differencing. |
transform.pars |
Logical. If true, the AR parameters are transformed to ensure that they remain in the region of stationarity. Not used for 'method = "CSS"'. |
fixed |
optional numeric vector of the same length as the total number of parameters. If supplied, only 'NA' entries in 'fixed' will be varied. 'transform.pars = TRUE' will be overridden (with a warning) if any AR parameters are fixed. It may be wise to set 'transform.pars = FALSE' when fixing MA parameters, especially near non-invertibility. |
init |
optional numeric vector of initial parameter values. Missing values will be filled in, by zeroes except for regression coefficients. Values already specified in 'fixed' will be ignored. |
method |
Fitting method: maximum likelihood or minimize conditional sum-of-squares. The default (unless there are missing values) is to use conditional-sum-of-squares to find starting values, then maximum likelihood. |
n.cond |
Only used if fitting by conditional-sum-of-squares: the number of initial observations to ignore. It will be ignored if less than the maximum lag of an AR term. |
optim.control |
List of control parameters for 'optim'. |
kappa |
the prior variance (as a multiple of the innovations variance) for the past observations in a differenced model. Do not reduce this. |
Box.test.lag |
the Box.test statistic will be based on 'Box.test.lag'
autocorrelation coefficients of the whitened residuals.
The default is the maximum of the following:
One more than the number of parameters estimated, not counting any 'intercept' in the model. |
Box.test.df |
numeric or character variable indicating the degrees of freedom for the ch-square approximation to the distribution of the Box.test statistic. The default 'net.lag' is 'Box.test.lag' minus the number of relevant parameters estimated. The primary alternative 'lag' is the number of lags included in the computation of the statistic. A positive number can also be provided. |
type |
which Box.test 'type' should be used? Partial matching is used. The 'rank' alternative computes 'Ljung-Box' on rank(x); see Burns (2002) and references therein. NOTE: The default 'Ljung-Box' type generally seems to be more accurate and popular than the earlier 'Box-Pierce', which is however the default for 'Box.test'. |
Details
1. Fit the desired model using 'arima'.
2. Compute the desired number of lags for Box.test
3. Apply 'AutocorTest' to the whitened residuals.
NOTE: Some software does not adjust the degrees of freedom for the number of parameters estimated. Tsay (2005) and Enders (2004) do. The need to adjust the degrees of freedom discussed by Brockwell and Davis (1990), who provide a proof describing the circumstances under which this is appropriate.
This is, however, an asymptotic result, and it would help to have simulation studies of the distribution of the Ljung-Box statistic, estimating degrees of freedom and evaluating goodness of fit. Burns recommends a rank version of the Ljung-Box test, but does not estimate degrees of freedom. If you have done such a simulation or know of a reference describing such, would you please notify the maintainer of this package?
4. If 'xreg' is supplied, compute r.squared.
Value
an 'arima' object with an additional 'Box.test' component and if 'xreg' is not null, an 'r.squared' component.
NOTE: The 'Box.test' help page in R 2.6.1 says, 'Missing values are not handled.' However, if 'x' contains NAs, 'ARIMA' still returns a numeric answer that seems plausible, at least in some examples. Therefore, either this comment on the help page is wrong (or obsolete) or the answer can not be trusted with NAs.
Author(s)
Spencer Graves for the ARIMA{FinTS} wrapper for
arima, written by the R Core Team, and
Box.test, written by A. Trapletti. John Frain
provided the citation to a proof in Brockwell and Davis (1990) that
the degrees of freedom for the approximating chi-square distribution
of the Ljung-Box statistic should be adjusted for the number of
parameters estimated. Michal Miklovic provided the citation to Enders
(2004).
References
Brockwell and Davis (1990) Time Series: Theory and Methods, 2nd Edition (Springer, page 310).
Walter Enders (2004) Applied Econometric Time Series (Wiley, pp. 68-69)
Greta Ljung and George E. P. Box (1978) 'On a measure of lack of fit in time series models', Biometrika, vol. 66, pp. 67-72.
Ruey Tsay (2005) Analysis of Financial Time Series, 2nd ed. (Wiley, ch. 2)
Patrick Burns (2002) 'Robustness of the Ljung-Box Test and its Rank Equivalent', https://www.burns-stat.com/pages/Working/ljungbox.pdf, accessed 2007.12.29.
See Also
arima
Box.test
tsdiag
Examples
##
## Examples from 'arima'
##
lh100 <- ARIMA(lh, order = c(1,0,0))
lh100$Box.test
# df = 3 = round(log(lh)) - 1
# 2 parameters are estimated, but 1 is 'intercept',
# so it doesn't count in the 'df' computation
lh500 <- ARIMA(lh, order = c(5,0,0))
lh500$Box.test
# round(log(length(lh))) = 4
# Default Box.test.lag = min(5+1, 4) = 6,
# so df = 1; without the min(5+1, ...), it would be -1.
lh500$Box.test$method # lag = 6
lh101 <- ARIMA(lh, order = c(1,0,1))
lh101$Box.test
# works with mixed ARMA
USAccD011 <- ARIMA(USAccDeaths, order = c(0,1,1),
seasonal = list(order=c(0,1,1)))
USAccD011$Box.test
# df = round(log(length(USAccDeaths))) - 2:
# correct 'df' with nonstationary 'seasonal' as well
LakeH200 <- ARIMA(LakeHuron, order = c(2,0,0),
xreg = time(LakeHuron)-1920)
LakeH200$Box.test
# correct 'df' with 'xreg'
LakeH200$r.squared
## presidents contains NAs
## graphs in example(acf) suggest order 1 or 3
require(graphics)
(fit1 <- ARIMA(presidents, c(1, 0, 0)))
fit1$Box.test
tsdiag(fit1)
##
## Example with multiple 'xreg' variables
##
tLH <- as.numeric(time(LakeHuron)-1920)
tLH2 <- cbind(timeLH.1920 = tLH, time.sq = tLH*tLH)
LakeH200. <- ARIMA(LakeHuron, order=c(2,0,0), xreg=tLH2)
LakeH200.$r.squared
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