arma_to_wv_app: ARMA process to WV Approximation
In simts: Time Series Analysis Tools
arma_to_wv_app R Documentation
ARMA process to WV Approximation
Description
This function computes the (haar) WV of an ARMA process
Usage
arma_to_wv_app(ar, ma, sigma2, tau, alpha = 0.9999)
Arguments
ar
A vec containing the coefficients of the AR process
ma
A vec containing the coefficients of the MA process
sigma2
A double containing the residual variance
tau
A vec containing the scales e.g. 2^{\tau}
alpha
A double indicating the cutoff.
Details
This function provides an approximation to the arma_to_wv as computation times
were previously a concern. However, this is no longer the case and, thus, this has been left
in for the curious soul to discover...
Value
A vec containing the wavelet variance of the ARMA process.
Process Haar Wavelet Variance Formula
The Autoregressive Order p and Moving Average Order q (ARMA(p,q)) process has a Haar Wavelet Variance given by:
\frac{{{\tau _j}\left[ {1 - \rho \left( {\frac{{{\tau _j}}}{2}} \right)} \right] + 2\sum\limits_{i = 1}^{\frac{{{\tau _j}}}{2} - 1} {i\left[ {2\rho \left( {\frac{{{\tau _j}}}{2} - i} \right) - \rho \left( i \right) - \rho \left( {{\tau _j} - i} \right)} \right]} }}{{\tau _j^2}}\sigma _X^2
where \sigma _X^2 is given by the variance of the ARMA process.
Furthermore, this assumes that stationarity has been achieved as it directly
simts documentation built on Aug. 31, 2023, 5:07 p.m.
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| arma_to_wv_app | R Documentation |
ARMA process to WV Approximation
Description
This function computes the (haar) WV of an ARMA process
Usage
arma_to_wv_app(ar, ma, sigma2, tau, alpha = 0.9999)
Arguments
ar |
A |
ma |
A |
sigma2 |
A |
tau |
A |
alpha |
A |
Details
This function provides an approximation to the arma_to_wv as computation times
were previously a concern. However, this is no longer the case and, thus, this has been left
in for the curious soul to discover...
Value
A vec containing the wavelet variance of the ARMA process.
Process Haar Wavelet Variance Formula
The Autoregressive Order p and Moving Average Order q (ARMA(p,q)) process has a Haar Wavelet Variance given by:
\frac{{{\tau _j}\left[ {1 - \rho \left( {\frac{{{\tau _j}}}{2}} \right)} \right] + 2\sum\limits_{i = 1}^{\frac{{{\tau _j}}}{2} - 1} {i\left[ {2\rho \left( {\frac{{{\tau _j}}}{2} - i} \right) - \rho \left( i \right) - \rho \left( {{\tau _j} - i} \right)} \right]} }}{{\tau _j^2}}\sigma _X^2
where \sigma _X^2 is given by the variance of the ARMA process.
Furthermore, this assumes that stationarity has been achieved as it directly
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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