mxKalmanScores: Estimate Kalman scores and error covariance matrices
In OpenMx: Extended Structural Equation Modelling
View source: R/MxExpectationStateSpace.R
mxKalmanScores R Documentation
Estimate Kalman scores and error covariance matrices
Description
This function creates the Kalman predicted, Kalman updated, and Rauch-Tung-Striebel smoothed latent state and error covariance estimates for an MxModel object that has an MxExpectationStateSpace object.
Usage
mxKalmanScores(model, data=NA, frontend=TRUE)
Arguments
model
An MxModel object with an MxExpectationStateSpace.
data
An optional data.frame or matrix.
frontend
When TRUE, compute score in the frontend, otherwise use the backend.
Details
This is a helper function that computes the results of the classical Kalman filter. In particular, for every row of data there is a predicted latent score, an error covariance matrix for the predicted latent scores that provides an estimate of the predictions precision, an updated latent score, and an updated error covariance matrix for the updated latent scores. Additionally, the Rauch-Tung-Striebel (RTS) smoothed latent scores and error covariance matrices are returned.
Value
A list with components xPredicted, PPredicted, xUpdated, PUpdated, xSmoothed, PSmoothed, m2ll, and L. When using backend scores, this list also has components for yPredicted and SPredicted which have the same number of time points as the other components but relate to the observed variables instead of the latent variables. The rows of xPredicted, xUpdated, and xSmoothed correspond to different time points. The columns are the different latent variables. The third index of PPredicted, PUpdated, and PSmoothed corresponds to different times. This works nicely with the R default print method for arrays. At each time there is a covariance matrix of the latent variable scores. For all items listed below, the first element goes with the zeroth time point (See example).
- xPredicted
matrix of Kalman predicted scores
- PPredicted
array of Kalman predicted error covariances
- xUpdated
matrix of Kalman updated scores
- PUpdated
array of Kalman updated error covariances
- xSmoothed
matrix of RTS smoothed scores
- PSmoothed
array of RTS smoothed error covariances
- m2ll
minus 2 log likelihood
- L
likelihood, i.e., the multivariate normal probability density
- yPredicted
matrix of Kalman predicted scores for the observed variables, i.e., the predicted means. Only available for backend scores.
- SPredicted
array of Kalman predicted error covariances for the observed variables, i.e., the predicted covariances. Only available for backend scores.
References
J. Durbin and S.J. Koopman. (2001). Time Series Analysis by State Space Methods. Oxford University Press.
R.E. Kalman (1960). A New Approach to Linear Filtering and Prediction Problems. Basic Engineering, 82, 35-45.
H.E. Rauch, F. Tung, C.T. Striebel. (1965). Maximum Likelihood Estimates of Linear Dynamic Systems. American Institute of Aeronautics and Astronautics Journal, 3, 1445-1450.
The OpenMx User's guide can be found at https://openmx.ssri.psu.edu/documentation/.
See Also
mxExpectationStateSpace
Examples
# Create and fit a model using mxMatrix, mxExpectationStateSpace, and mxFitFunctionML
require(OpenMx)
data(demoOneFactor)
# Use only first 50 rows, for speed of example
data <- demoOneFactor[1:50,]
nvar <- ncol(demoOneFactor)
varnames <- colnames(demoOneFactor)
ssModel <- mxModel(model="State Space Manual Example",
mxMatrix("Full", 1, 1, TRUE, .3, name="A"),
mxMatrix("Zero", 1, 1, name="B"),
mxMatrix("Full", nvar, 1, TRUE, .6, name="C", dimnames=list(varnames, "F1")),
mxMatrix("Zero", nvar, 1, name="D"),
mxMatrix("Diag", 1, 1, FALSE, 1, name="Q"),
mxMatrix("Diag", nvar, nvar, TRUE, .2, name="R"),
mxMatrix("Zero", 1, 1, name="x0"),
mxMatrix("Diag", 1, 1, FALSE, 1, name="P0"),
mxMatrix("Zero", 1, 1, name="u"),
mxData(observed=data, type="raw"),
mxExpectationStateSpace("A", "B", "C", "D", "Q", "R", "x0", "P0", "u"),
mxFitFunctionML()
)
ssRun <- mxRun(ssModel)
summary(ssRun)
# Note the freely estimated Autoregressive parameter (A matrix)
# is near zero as it should be for the independent rows of data
# from the factor model.
ssScores <- mxKalmanScores(ssRun)
cor(cbind(ssScores$xPredicted[,1], ssScores$xUpdated[,1], ssScores$xSmoothed[,1]))
# Because the autoregressive dynamics are near zero, the predicted and updated scores
# correlate minimally, and the updated and smoothed latent state estimates
# are extremely close.
# The first few latent predicted scores
head(ssScores$xPredicted)
# The predicted latent score for time 10
ssScores$xPredicted[10+1,]
# The error covariance of the predicted score at time 10
ssScores$PPredicted[,,10+1]
OpenMx documentation built on Oct. 19, 2024, 9:06 a.m.
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View source: R/MxExpectationStateSpace.R
| mxKalmanScores | R Documentation |
Estimate Kalman scores and error covariance matrices
Description
This function creates the Kalman predicted, Kalman updated, and Rauch-Tung-Striebel smoothed latent state and error covariance estimates for an MxModel object that has an MxExpectationStateSpace object.
Usage
mxKalmanScores(model, data=NA, frontend=TRUE)
Arguments
model |
An MxModel object with an MxExpectationStateSpace. |
data |
An optional data.frame or matrix. |
frontend |
When TRUE, compute score in the frontend, otherwise use the backend. |
Details
This is a helper function that computes the results of the classical Kalman filter. In particular, for every row of data there is a predicted latent score, an error covariance matrix for the predicted latent scores that provides an estimate of the predictions precision, an updated latent score, and an updated error covariance matrix for the updated latent scores. Additionally, the Rauch-Tung-Striebel (RTS) smoothed latent scores and error covariance matrices are returned.
Value
A list with components xPredicted, PPredicted, xUpdated, PUpdated, xSmoothed, PSmoothed, m2ll, and L. When using backend scores, this list also has components for yPredicted and SPredicted which have the same number of time points as the other components but relate to the observed variables instead of the latent variables. The rows of xPredicted, xUpdated, and xSmoothed correspond to different time points. The columns are the different latent variables. The third index of PPredicted, PUpdated, and PSmoothed corresponds to different times. This works nicely with the R default print method for arrays. At each time there is a covariance matrix of the latent variable scores. For all items listed below, the first element goes with the zeroth time point (See example).
- xPredicted
matrix of Kalman predicted scores
- PPredicted
array of Kalman predicted error covariances
- xUpdated
matrix of Kalman updated scores
- PUpdated
array of Kalman updated error covariances
- xSmoothed
matrix of RTS smoothed scores
- PSmoothed
array of RTS smoothed error covariances
- m2ll
minus 2 log likelihood
- L
likelihood, i.e., the multivariate normal probability density
- yPredicted
matrix of Kalman predicted scores for the observed variables, i.e., the predicted means. Only available for backend scores.
- SPredicted
array of Kalman predicted error covariances for the observed variables, i.e., the predicted covariances. Only available for backend scores.
References
J. Durbin and S.J. Koopman. (2001). Time Series Analysis by State Space Methods. Oxford University Press.
R.E. Kalman (1960). A New Approach to Linear Filtering and Prediction Problems. Basic Engineering, 82, 35-45.
H.E. Rauch, F. Tung, C.T. Striebel. (1965). Maximum Likelihood Estimates of Linear Dynamic Systems. American Institute of Aeronautics and Astronautics Journal, 3, 1445-1450.
The OpenMx User's guide can be found at https://openmx.ssri.psu.edu/documentation/.
See Also
mxExpectationStateSpace
Examples
# Create and fit a model using mxMatrix, mxExpectationStateSpace, and mxFitFunctionML
require(OpenMx)
data(demoOneFactor)
# Use only first 50 rows, for speed of example
data <- demoOneFactor[1:50,]
nvar <- ncol(demoOneFactor)
varnames <- colnames(demoOneFactor)
ssModel <- mxModel(model="State Space Manual Example",
mxMatrix("Full", 1, 1, TRUE, .3, name="A"),
mxMatrix("Zero", 1, 1, name="B"),
mxMatrix("Full", nvar, 1, TRUE, .6, name="C", dimnames=list(varnames, "F1")),
mxMatrix("Zero", nvar, 1, name="D"),
mxMatrix("Diag", 1, 1, FALSE, 1, name="Q"),
mxMatrix("Diag", nvar, nvar, TRUE, .2, name="R"),
mxMatrix("Zero", 1, 1, name="x0"),
mxMatrix("Diag", 1, 1, FALSE, 1, name="P0"),
mxMatrix("Zero", 1, 1, name="u"),
mxData(observed=data, type="raw"),
mxExpectationStateSpace("A", "B", "C", "D", "Q", "R", "x0", "P0", "u"),
mxFitFunctionML()
)
ssRun <- mxRun(ssModel)
summary(ssRun)
# Note the freely estimated Autoregressive parameter (A matrix)
# is near zero as it should be for the independent rows of data
# from the factor model.
ssScores <- mxKalmanScores(ssRun)
cor(cbind(ssScores$xPredicted[,1], ssScores$xUpdated[,1], ssScores$xSmoothed[,1]))
# Because the autoregressive dynamics are near zero, the predicted and updated scores
# correlate minimally, and the updated and smoothed latent state estimates
# are extremely close.
# The first few latent predicted scores
head(ssScores$xPredicted)
# The predicted latent score for time 10
ssScores$xPredicted[10+1,]
# The error covariance of the predicted score at time 10
ssScores$PPredicted[,,10+1]
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