combinef: Optimally combine forecasts from a hierarchical or grouped...
In hts: Hierarchical and Grouped Time Series
combinef R Documentation
Optimally combine forecasts from a hierarchical or grouped time series
Description
Using the methods of Hyndman et al. (2016) and Hyndman et al. (2011), this function optimally combines
the forecasts at all levels of a hierarchical time series. The
forecast.gts calls this function when the comb method
is selected.
Usage
combinef(
fcasts,
nodes = NULL,
groups = NULL,
weights = NULL,
nonnegative = FALSE,
algorithms = c("lu", "cg", "chol", "recursive", "slm"),
keep = c("gts", "all", "bottom"),
parallel = FALSE,
num.cores = 2,
control.nn = list()
)
Arguments
fcasts
Matrix of forecasts for all levels of the hierarchical time
series. Each row represents one forecast horizon and each column represents
one time series from the hierarchy.
nodes
If the object class is hts, a list contains the number
of child nodes referring to hts.
groups
If the object class is gts, a gmatrix is required,
which is the same as groups in the function gts.
weights
A numeric vector. The default is NULL which means that
ordinary least squares is implemented.
nonnegative
Logical. Should the reconciled forecasts be non-negative?
algorithms
An algorithm to be used for computing reconciled
forecasts. See forecast.gts for details.
keep
Return a gts object or the the reconciled forecasts at
the bottom level.
parallel
Logical. Import parallel package to allow parallel processing.
num.cores
Numeric. Specify how many cores are going to be used.
control.nn
A list of control parameters to be passed on to the
block principal pivoting algorithm. See 'Details'.
Details
The control.nn argument is a list that can supply any of the following components:
ptypePermutation method to be used: "fixed" or "random". Defaults to "fixed".
parThe number of full exchange rules that may be tried. Defaults to 10.
gtolThe tolerance of the convergence criteria. Defaults to sqrt(.Machine$double.eps).
Value
Return the (non-negative) reconciled gts object or forecasts at the bottom
level.
Author(s)
Alan Lee, Rob J Hyndman, Earo Wang and Shanika L Wickramasuriya
References
Hyndman, R. J., Ahmed, R. A., Athanasopoulos, G., & Shang, H. L.
(2011). Optimal combination forecasts for hierarchical time series.
Computational Statistics and Data Analysis, 55(9), 2579–2589. https://robjhyndman.com/publications/hierarchical/
Hyndman, R. J., Lee, A., & Wang, E. (2016). Fast computation of reconciled
forecasts for hierarchical and grouped time series. Computational Statistics and Data Analysis,
97, 16–32. https://robjhyndman.com/publications/hgts/
Wickramasuriya, S. L., Turlach, B. A., & Hyndman, R. J. (to appear). Optimal non-negative forecast reconciliation.
Statistics and Computing. https://robjhyndman.com/publications/nnmint/
See Also
hts, forecast.gts
Examples
# hts example
## Not run:
h <- 12
ally <- aggts(htseg1)
allf <- matrix(NA, nrow = h, ncol = ncol(ally))
for(i in 1:ncol(ally))
allf[,i] <- forecast(auto.arima(ally[,i]), h = h)$mean
allf <- ts(allf, start = 51)
y.f <- combinef(allf, get_nodes(htseg1), weights = NULL, keep = "gts", algorithms = "lu")
plot(y.f)
## End(Not run)
## Not run:
h <- 12
ally <- abs(aggts(htseg2))
allf <- matrix(NA, nrow = h, ncol = ncol(ally))
for(i in 1:ncol(ally))
allf[,i] <- forecast(auto.arima(ally[,i], lambda = 0, biasadj = TRUE), h = h)$mean
b.f <- combinef(allf, get_nodes(htseg2), weights = NULL, keep = "bottom",
algorithms = "lu")
b.nnf <- combinef(allf, get_nodes(htseg2), weights = NULL, keep = "bottom",
algorithms = "lu", nonnegative = TRUE)
## End(Not run)
# gts example
## Not run:
abc <- ts(5 + matrix(sort(rnorm(200)), ncol = 4, nrow = 50))
g <- rbind(c(1,1,2,2), c(1,2,1,2))
y <- gts(abc, groups = g)
h <- 12
ally <- aggts(y)
allf <- matrix(NA,nrow = h,ncol = ncol(ally))
for(i in 1:ncol(ally))
allf[,i] <- forecast(auto.arima(ally[,i]),h = h)$mean
allf <- ts(allf, start = 51)
y.f <- combinef(allf, groups = get_groups(y), keep ="gts", algorithms = "lu")
plot(y.f)
## End(Not run)
hts documentation built on Sept. 11, 2024, 7:32 p.m.
R Package Documentation
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| combinef | R Documentation |
Optimally combine forecasts from a hierarchical or grouped time series
Description
Using the methods of Hyndman et al. (2016) and Hyndman et al. (2011), this function optimally combines
the forecasts at all levels of a hierarchical time series. The
forecast.gts calls this function when the comb method
is selected.
Usage
combinef(
fcasts,
nodes = NULL,
groups = NULL,
weights = NULL,
nonnegative = FALSE,
algorithms = c("lu", "cg", "chol", "recursive", "slm"),
keep = c("gts", "all", "bottom"),
parallel = FALSE,
num.cores = 2,
control.nn = list()
)
Arguments
fcasts |
Matrix of forecasts for all levels of the hierarchical time series. Each row represents one forecast horizon and each column represents one time series from the hierarchy. |
nodes |
If the object class is |
groups |
If the object class is |
weights |
A numeric vector. The default is |
nonnegative |
Logical. Should the reconciled forecasts be non-negative? |
algorithms |
An algorithm to be used for computing reconciled
forecasts. See |
keep |
Return a |
parallel |
Logical. Import parallel package to allow parallel processing. |
num.cores |
Numeric. Specify how many cores are going to be used. |
control.nn |
A list of control parameters to be passed on to the block principal pivoting algorithm. See 'Details'. |
Details
The control.nn argument is a list that can supply any of the following components:
ptypePermutation method to be used:
"fixed"or"random". Defaults to"fixed".parThe number of full exchange rules that may be tried. Defaults to 10.
gtolThe tolerance of the convergence criteria. Defaults to
sqrt(.Machine$double.eps).
Value
Return the (non-negative) reconciled gts object or forecasts at the bottom
level.
Author(s)
Alan Lee, Rob J Hyndman, Earo Wang and Shanika L Wickramasuriya
References
Hyndman, R. J., Ahmed, R. A., Athanasopoulos, G., & Shang, H. L. (2011). Optimal combination forecasts for hierarchical time series. Computational Statistics and Data Analysis, 55(9), 2579–2589. https://robjhyndman.com/publications/hierarchical/
Hyndman, R. J., Lee, A., & Wang, E. (2016). Fast computation of reconciled forecasts for hierarchical and grouped time series. Computational Statistics and Data Analysis, 97, 16–32. https://robjhyndman.com/publications/hgts/
Wickramasuriya, S. L., Turlach, B. A., & Hyndman, R. J. (to appear). Optimal non-negative forecast reconciliation. Statistics and Computing. https://robjhyndman.com/publications/nnmint/
See Also
hts, forecast.gts
Examples
# hts example
## Not run:
h <- 12
ally <- aggts(htseg1)
allf <- matrix(NA, nrow = h, ncol = ncol(ally))
for(i in 1:ncol(ally))
allf[,i] <- forecast(auto.arima(ally[,i]), h = h)$mean
allf <- ts(allf, start = 51)
y.f <- combinef(allf, get_nodes(htseg1), weights = NULL, keep = "gts", algorithms = "lu")
plot(y.f)
## End(Not run)
## Not run:
h <- 12
ally <- abs(aggts(htseg2))
allf <- matrix(NA, nrow = h, ncol = ncol(ally))
for(i in 1:ncol(ally))
allf[,i] <- forecast(auto.arima(ally[,i], lambda = 0, biasadj = TRUE), h = h)$mean
b.f <- combinef(allf, get_nodes(htseg2), weights = NULL, keep = "bottom",
algorithms = "lu")
b.nnf <- combinef(allf, get_nodes(htseg2), weights = NULL, keep = "bottom",
algorithms = "lu", nonnegative = TRUE)
## End(Not run)
# gts example
## Not run:
abc <- ts(5 + matrix(sort(rnorm(200)), ncol = 4, nrow = 50))
g <- rbind(c(1,1,2,2), c(1,2,1,2))
y <- gts(abc, groups = g)
h <- 12
ally <- aggts(y)
allf <- matrix(NA,nrow = h,ncol = ncol(ally))
for(i in 1:ncol(ally))
allf[,i] <- forecast(auto.arima(ally[,i]),h = h)$mean
allf <- ts(allf, start = 51)
y.f <- combinef(allf, groups = get_groups(y), keep ="gts", algorithms = "lu")
plot(y.f)
## End(Not run)
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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