R: Trace minimization for hierarchical or grouped time series

MinT {hts}

R Documentation

Trace minimization for hierarchical or grouped time series

Description

Using the method of Wickramasuriya et al. (2019), this function combines the forecasts at all levels of a hierarchical or grouped time series. The forecast.gts calls this function when the MinT method is selected.

Usage

MinT(
  fcasts,
  nodes = NULL,
  groups = NULL,
  residual,
  covariance = c("shr", "sam"),
  nonnegative = FALSE,
  algorithms = c("lu", "cg", "chol"),
  keep = c("gts", "all", "bottom"),
  parallel = FALSE,
  num.cores = 2,
  control.nn = list()
)

Arguments

`fcasts`	Matrix of forecasts for all levels of a hierarchical or grouped time series. Each row represents one forecast horizon and each column represents one time series of aggregated or disaggregated forecasts.
`nodes`	If the object class is hts, a list contains the number of child nodes referring to hts.
`groups`	If the object is gts, a gmatrix is required, which is the same as groups in the function gts.
`residual`	Matrix of insample residuals for all the aggregated and disaggregated time series. The columns must be in the same order as `fcasts`.
`covariance`	Type of the covariance matrix to be used. Shrinking towards a diagonal unequal variances (`"shr"`) or sample covariance matrix (`"sam"`).
`nonnegative`	Logical. Should the reconciled forecasts be non-negative?
`algorithms`	Algorithm used to compute inverse of the matrices.
`keep`	Return a gts object or 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:

ptype: Permutation method to be used: "fixed" or "random". Defaults to "fixed".
par: The number of full exchange rules that may be tried. Defaults to 10.
gtol: The tolerance of the convergence criteria. Defaults to sqrt(.Machine$double.eps).

Value

Return the reconciled gts object or forecasts at the bottom level.

Author(s)

Shanika L Wickramasuriya

References

Wickramasuriya, S. L., Athanasopoulos, G., & Hyndman, R. J. (2019). Optimal forecast reconciliation for hierarchical and grouped time series through trace minimization. Journal of the American Statistical Association, 114(526), 804–819. https://robjhyndman.com/publications/mint/

Wickramasuriya, S. L., Turlach, B. A., & Hyndman, R. J. (to appear). Optimal non-negative forecast reconciliation. Statistics and Computing. https://robjhyndman.com/publications/nnmint/

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/

Examples


# hts example
## Not run: 
h <- 12
ally <- aggts(htseg1)
n <- nrow(ally)
p <- ncol(ally)
allf <- matrix(NA, nrow = h, ncol = p)
res <- matrix(NA, nrow = n, ncol = p)
for(i in 1:p)
{
  fit <- auto.arima(ally[, i])
  allf[, i] <- forecast(fit, h = h)$mean
  res[, i] <- na.omit(ally[, i] - fitted(fit))
}
allf <- ts(allf, start = 51)
y.f <- MinT(allf, get_nodes(htseg1), residual = res, covariance = "shr",
  keep = "gts", algorithms = "lu")
plot(y.f)
y.f_cg <- MinT(allf, get_nodes(htseg1), residual = res, covariance = "shr",
  keep = "all", algorithms = "cg")

## End(Not run)

## Not run: 
h <- 12
ally <- abs(aggts(htseg2))
allf <- matrix(NA, nrow = h, ncol = ncol(ally))
res <- matrix(NA, nrow = nrow(ally), ncol = ncol(ally))
for(i in 1:ncol(ally)) {
  fit <- auto.arima(ally[, i], lambda = 0, biasadj = TRUE)
  allf[,i] <- forecast(fit, h = h)$mean
  res[,i] <- na.omit(ally[, i] - fitted(fit))
}
b.f <- MinT(allf, get_nodes(htseg2), residual = res, covariance = "shr",
  keep = "bottom", algorithms = "lu")
b.nnf <-  MinT(allf, get_nodes(htseg2), residual = res, covariance = "shr",
  keep = "bottom", algorithms = "lu", nonnegative = TRUE, parallel = 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)
n <- nrow(ally)
p <- ncol(ally)
allf <- matrix(NA,nrow = h,ncol = ncol(ally))
res <- matrix(NA, nrow = n, ncol = p)
for(i in 1:p)
{
  fit <- auto.arima(ally[, i])
  allf[, i] <- forecast(fit, h = h)$mean
  res[, i] <- na.omit(ally[, i] - fitted(fit))
}
allf <- ts(allf, start = 51)
y.f <- MinT(allf, groups = get_groups(y), residual = res, covariance = "shr",
  keep = "gts", algorithms = "lu")
plot(y.f)

## End(Not run)

[Package hts version 6.0.3 Index]