dccspec-methods: function: DCC-GARCH Specification
In rmgarch: Multivariate GARCH Models
Description
Usage
Arguments
Details
Value
Note
Author(s)
References
Description
Method for creating a DCC-GARCH specification object prior to fitting.
Usage
1
2
3
4
5
dccspec(uspec, VAR = FALSE, robust = FALSE, lag = 1, lag.max = NULL,
lag.criterion = c("AIC", "HQ", "SC", "FPE"), external.regressors = NULL,
robust.control = list("gamma" = 0.25, "delta" = 0.01, "nc" = 10, "ns" = 500),
dccOrder = c(1,1), model = c("DCC", "aDCC", "FDCC"), groups = rep(1, length(uspec@spec)),
distribution = c("mvnorm", "mvt", "mvlaplace"), start.pars = list(), fixed.pars = list())
Arguments
uspec
A uGARCHmultispec object created by calling
multispec on a list of univariate GARCH specifications.
VAR
Whether to fit a VAR model for the conditional mean.
robust
Whether to use the robust version of VAR.
lag
The VAR lag.
lag.max
The maximum VAR lag to search for best fit.
lag.criterion
The criterion to use for choosing the best lag when
lag.max is not NULL.
external.regressors
Allows for a matrix of common pre-lagged external
regressors for the VAR option.
robust.control
The tuning parameters to the robust regression
including the proportion to trim (“gamma”), the critical value for
re-weighted estimator (“delta”), the number of subsets (“ns”)
and the number of C-steps (“nc”.
dccOrder
The DCC autoregressive order.
model
The DCC model to use, with a choice of the symmetric DCC,
asymmetric (aDCC) and the Flexible DCC (FDCC). See notes for more details.
groups
The groups corresponding to each asset in the FDCC model, where
these are assumed and checked to be contiguous and increasing (unless only 1 group).
distribution
The multivariate distribution. Currently the multivariate
Normal, Student and Laplace are implemented, and only the Normal for the FDCC model.
start.pars
(optional) Starting values for the DCC parameters (starting
values for the univariate garch specification should be passed directly
via the ‘uspec’ object).
fixed.pars
(optional) Fixed DCC parameters. This is required in the
dccfilter, dccforecast, dccsim with
spec, and dccroll
methods.
Details
The robust option allows for a robust version of VAR based on the
multivariate Least Trimmed Squares Estimator described in Croux and Joossens
(2008).
Value
A DCCspec object containing details of the DCC-GARCH
specification.
Note
The FDCC model of Billio, Caporin and Gobbo (2006) allows different DCC
parameters to govern the dynamics of the correlation of distinct groups. The
drawback is a somewhat larger parameter set, and no correlation targeting.
Still, it remains a feasible model for not too large a number of groups, and
avoids the unrealistic assumption, particularly for large datasets, of one
parameter governing all the dynamics, as in the DCC model. Note that the group
indices must be increasing (unless all 1), which means that you should arrange
your dataset so that the assets are ordered by their groups.
Author(s)
Alexios Galanos
References
Billio, M., Caporin, M., & Gobbo, M. 2006, Flexible dynamic conditional
correlation multivariate GARCH models for asset allocation, Applied
Financial Economics Letters, 2(02), 123–130.
Croux, C. and Joossens, K. 2008, Robust estimation of the vector autoregressive
model by a least trimmed squares procedure, COMPSTAT, 489–501.
Cappiello, L., Engle, R.F. and Sheppard, K. 2006, Asymmetric dynamics in the
correlations of global equity and bond returns, Journal of Financial
Econometrics 4, 537–572.
Engle, R.F. and Sheppard, K. 2001, Theoretical and empirical properties of
dynamic conditional correlation multivariate GARCH, NBER Working Paper.
rmgarch documentation built on Feb. 5, 2022, 1:07 a.m.
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Description Usage Arguments Details Value Note Author(s) References
Description
Method for creating a DCC-GARCH specification object prior to fitting.
Usage
1 2 3 4 5 | dccspec(uspec, VAR = FALSE, robust = FALSE, lag = 1, lag.max = NULL,
lag.criterion = c("AIC", "HQ", "SC", "FPE"), external.regressors = NULL,
robust.control = list("gamma" = 0.25, "delta" = 0.01, "nc" = 10, "ns" = 500),
dccOrder = c(1,1), model = c("DCC", "aDCC", "FDCC"), groups = rep(1, length(uspec@spec)),
distribution = c("mvnorm", "mvt", "mvlaplace"), start.pars = list(), fixed.pars = list())
|
Arguments
uspec |
A |
VAR |
Whether to fit a VAR model for the conditional mean. |
robust |
Whether to use the robust version of VAR. |
lag |
The VAR lag. |
lag.max |
The maximum VAR lag to search for best fit. |
lag.criterion |
The criterion to use for choosing the best lag when lag.max is not NULL. |
external.regressors |
Allows for a matrix of common pre-lagged external regressors for the VAR option. |
robust.control |
The tuning parameters to the robust regression including the proportion to trim (“gamma”), the critical value for re-weighted estimator (“delta”), the number of subsets (“ns”) and the number of C-steps (“nc”. |
dccOrder |
The DCC autoregressive order. |
model |
The DCC model to use, with a choice of the symmetric DCC, asymmetric (aDCC) and the Flexible DCC (FDCC). See notes for more details. |
groups |
The groups corresponding to each asset in the FDCC model, where these are assumed and checked to be contiguous and increasing (unless only 1 group). |
distribution |
The multivariate distribution. Currently the multivariate Normal, Student and Laplace are implemented, and only the Normal for the FDCC model. |
start.pars |
(optional) Starting values for the DCC parameters (starting values for the univariate garch specification should be passed directly via the ‘uspec’ object). |
fixed.pars |
(optional) Fixed DCC parameters. This is required in the
|
Details
The robust option allows for a robust version of VAR based on the
multivariate Least Trimmed Squares Estimator described in Croux and Joossens
(2008).
Value
A DCCspec object containing details of the DCC-GARCH
specification.
Note
The FDCC model of Billio, Caporin and Gobbo (2006) allows different DCC parameters to govern the dynamics of the correlation of distinct groups. The drawback is a somewhat larger parameter set, and no correlation targeting. Still, it remains a feasible model for not too large a number of groups, and avoids the unrealistic assumption, particularly for large datasets, of one parameter governing all the dynamics, as in the DCC model. Note that the group indices must be increasing (unless all 1), which means that you should arrange your dataset so that the assets are ordered by their groups.
Author(s)
Alexios Galanos
References
Billio, M., Caporin, M., & Gobbo, M. 2006, Flexible dynamic conditional
correlation multivariate GARCH models for asset allocation, Applied
Financial Economics Letters, 2(02), 123–130.
Croux, C. and Joossens, K. 2008, Robust estimation of the vector autoregressive
model by a least trimmed squares procedure, COMPSTAT, 489–501.
Cappiello, L., Engle, R.F. and Sheppard, K. 2006, Asymmetric dynamics in the
correlations of global equity and bond returns, Journal of Financial
Econometrics 4, 537–572.
Engle, R.F. and Sheppard, K. 2001, Theoretical and empirical properties of
dynamic conditional correlation multivariate GARCH, NBER Working Paper.
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