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The Rfssa package provides the collection of necessary functions to implement functional singular spectrum analysis (FSSA)-based methods for analyzing univariate and multivariate functional time series (FTS). Univariate and multivariate FSSA are novel, non-parametric methods used to perform decomposition and reconstruction of univariate and multivariate FTS respectively. In addition, the FSSA-based routines may be performed on FTS whose variables are observed over a one or two-dimensional domain. Finally, one may perform FSSA recurrent or FSSA vector forecasting of univariate or multivariate funts observed over one-dimensional domains. Forecasting of funts whose variables are observed over domains of dimension greater than one is under development.
The use of the package begins by defining an `funts’ object by providing the constructor with the raw data, basis specifications, and grid specifications. We note that the FTS object may be univariate or multivariate and variables may be observed over one (curves) or two-dimensional (images) domains. Validity checking of the S4 object constructor inputs is included to help guide the user. The user may leverage the plot.funts method to visualize the funts object. A variety of plotting options are available for variables observed over a one-dimensional domain and a visuanimation is offered for variables observed over a two-dimensional domain. Next, the user provides the funts object and a chosen lag parameter to the FSSA routine (fssa) to obtain the decomposition. We note that the decomposition function leverages the RSpectra and RcppEigen R packages, and the Eigen C++ package to speed up the routine. The plot.fssa method may be used to visualize the results of the decomposition and to choose an appropriate grouping of the eigentriples for reconstruction (freconstruct) or forecasting (fforecast). The freconstruct routine can be used to reconstruct a list of funts objects specified by the grouping while the fforecast function returns a list of funts objects that contain predictions of the signals specified by the grouping. The user may also calculate the bootstrapped prediction interval for forecasts using the fpredinterval function. We note that when forecasting is performed, usually the user specifies one group that captures the assumed deterministic, extracted signal that is found within the FTS and all other modes of variation are excluded. We also note that currently, forecasting only supports FTS whose variables are observed over a one-dimensional domain with two-dimensional domain forecasting to be added in the future.
Other functionalities offered by the package include:The name fts
has been modified to funts
to avoid any clashes with the package. Furthermore, the class of funts
has bee transitioned from S4 to S3 to ensure better compatibility and consistency within the package. These changes are aimed at preventing any conflicts when using Rfssa
in conjunction with other packages like rainbow
, enhancing the user experience.
All the methods for funts
have re-implemented and introduced new generic methods such as length()
, print()
, and plot()
to provide a more comprehensive and user-friendly interface.
The plot()
method for funts
class objects (formerly fts
) has been renamed to plotly_funts()
. This new name more accurately reflects the type of plots it generates, which are based on plotly
graphics.
An S3 class named fforecast
is added to encapsulate the output of the fforecast()
function. This class is designed to provide a more organized and intuitive structure for handling forecasted functional time series (FTS) data.
Three convenient functions, namely loadJambiData()
, loadCallcenterData()
, and loadMontanaData()
are added. These functions have been designed to simplify the process of acquiring the raw dataset from the web and loading it into the global environment.
In the latest version of the package, two new parameters, start and end, have been introduced in the funts
function to capture the duration of the time series. These parameters provide flexibility for users to specify time information in a more structured and standardized manner. Users can now set start
and end
using various time and date classes such as Date
, POSIXct
, or POSIXt
, allowing for better representation of time.
The reader should note that we do not utilize FTS plotting options in this README because of the large size of the resulting files. The reader should refer to the examples offered at the end of this README to see examples of how to apply the methodologies to real data.
You can install Rfssa from github with:
The following links provide examples of how to run FSSA-related methods on real data:
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.