simu.tar.norm: Simulate a series from a TAR model with Gaussian distributed...
In TAR: Bayesian Modeling of Autoregressive Threshold Time Series Models
Description
Usage
Arguments
Details
Value
Author(s)
References
See Also
Examples
View source: R/simu.tar.norm.R
Description
This function simulates a serie from a TAR model with Gaussian distributed error given the parameters of the model from a given threshold process \{Z_t\}
Usage
1
simu.tar.norm(Z, l, r, K, theta, H)
Arguments
Z
The threshold series
l
The number of regimes.
r
The vector of thresholds for the series \{Z_t\}.
K
The vector containing the autoregressive orders of the l regimes.
theta
The matrix of autoregressive coefficients of dimension l\times\max{K}. j-th row contains the autoregressive coefficients of regime j.
H
The vector containing the variance weights of the l regimes.
Details
The TAR model is given by
X_t=a_0^{(j)} + ∑_{i=1}^{k_j}a_i^{(j)}X_{t-i}+h^{(j)}e_t
when Z_t\in (r_{j-1},r_j] for som j (j=1,\cdots,l).
the \{Z_t\} is the threshold process, l is the number of regimes, k_j is the autoregressive order in the regime j. a_i^{(j)} with i=0,1,\cdots,k_j denote the autoregressive coefficients, while h^{(j)} denote the variance weights. \{e_t\} is the Gaussian white noise process N(0,1).
Value
The time series \{X_t\}.
Author(s)
Hanwen Zhang <hanwenzhang at usantotomas.edu.co>
References
Nieto, F. H. (2005), Modeling Bivariate Threshold Autoregressive Processes in the Presence of Missing Data. Communications in Statistics. Theory and Methods, 34; 905-930
See Also
Examples
1
2
3
4
5
6
7
8
TAR documentation built on May 2, 2019, 3:40 a.m.
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Description Usage Arguments Details Value Author(s) References See Also Examples
View source: R/simu.tar.norm.R
Description
This function simulates a serie from a TAR model with Gaussian distributed error given the parameters of the model from a given threshold process \{Z_t\}
Usage
1 | simu.tar.norm(Z, l, r, K, theta, H)
|
Arguments
Z |
The threshold series |
l |
The number of regimes. |
r |
The vector of thresholds for the series \{Z_t\}. |
K |
The vector containing the autoregressive orders of the l regimes. |
theta |
The matrix of autoregressive coefficients of dimension l\times\max{K}. j-th row contains the autoregressive coefficients of regime j. |
H |
The vector containing the variance weights of the l regimes. |
Details
The TAR model is given by
X_t=a_0^{(j)} + ∑_{i=1}^{k_j}a_i^{(j)}X_{t-i}+h^{(j)}e_t
when Z_t\in (r_{j-1},r_j] for som j (j=1,\cdots,l). the \{Z_t\} is the threshold process, l is the number of regimes, k_j is the autoregressive order in the regime j. a_i^{(j)} with i=0,1,\cdots,k_j denote the autoregressive coefficients, while h^{(j)} denote the variance weights. \{e_t\} is the Gaussian white noise process N(0,1).
Value
The time series \{X_t\}.
Author(s)
Hanwen Zhang <hanwenzhang at usantotomas.edu.co>
References
Nieto, F. H. (2005), Modeling Bivariate Threshold Autoregressive Processes in the Presence of Missing Data. Communications in Statistics. Theory and Methods, 34; 905-930
See Also
Examples
1 2 3 4 5 6 7 8 |
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