FIESTA - Small Area Estimators

In FIESTA: Forest Inventory Estimation and Analysis

knitr::opts_chunk$set(warning = FALSE, message = FALSE)

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knitr::knit_hooks$set(
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data.table::setDTthreads(2)

Small Area (SA) module overview

FIESTA's Small Area (SA) module was set up as a platform to integrate with current Small Area Estimators available on CRAN including the JoSAE (Breidenbach 2015), sae (Molina and Marhuenda 2015), and hbsae (Boonstra 2012) packages that use unit-level and area-level models such as the Empirical Best Linear Unbiased Prediction (EBLUP) estimation strategy and the hierarchical Bayesian estimation strategy. Rao (2003) discusses the benefits of the EBLUP for balancing potential bias of synthetic estimators against the instability of a direct estimator. White et al (2021) discusses the benefits of Small Area Estimation in a hierarchical Bayesian context, especially for forestry data. The module includes functional steps for checking, compiling, and formatting FIA plot data and auxiliary spatial information for input to R packages, such as JoSAE (Breidenbach 2015), sae (Molina and Marhuenda 2015), or hbsae (Boonstra 2012) and translates integrated package output to FIESTA output format.

Functions in FIESTA used for fitting Small Area Estimators include the modSAarea function for area estimates and modSAtree for tree estimates. The modSApop function is used to get population data needed for small area estimation. Below is a description and table of contents for the sections related to these functions:

FUNCTION | DESCRIPTION -------------- | --------------------------------------------------------------- modSApop | Creates population data for small area estimation. modSAarea | Produces area level estimates through small area estimation. modSAtree | Produces tree level estimates through small area estimation.

Objective of tutorial

The main objective of this tutorial is to demonstrate how to use FIESTA for generating estimates using estimators from the JoSAE, sae, and hbsae R packages. The following examples are for generating estimates and estimated variances using standard FIA Evaluation data from FIA's National database, with custom Estimation unit and Stratification information. The examples use data from three inventory years of field measurements in the state of Wyoming, from FIADB_1.7.2.00, last updated June 20, 2018, downloaded on June 25, 2018 and stored as internal data objects in FIESTA.

Example data - Wyoming (WY), Inventory Years 2011-2012

View SA Example Data

Data Frame | Description -----------| -------------------------------------------------------------------------------- WYplt | WY plot-level data WYcond | WY condition-level data WYtree | WY tree-level data

External data | Description -------------------------| ------------------------------------------------------------------ WYbighorn_adminbnd.shp | Polygon shapefile of WY Bighorn National Forest Administrative boundary WYbighorn_districtbnd.shp| Polygon shapefile of WY Bighorn National Forest District boundaries WYbighorn_forest_nonforest_250m.tif| GeoTIFF raster of predicted forest/nonforest (1/0) for stratification WYbighorn_dem_250m.img | Erdas Imagine raster of elevation change, in meters

*USDA Forest Service, Automated Lands Program (ALP). 2018. S_USA.AdministrativeForest (\url{http://data.fs.usda.gov/geodata/edw}). Description: An area encompassing all the National Forest System lands administered by an administrative unit. The area encompasses private lands, other governmental agency lands, and may contain National Forest System lands within the proclaimed boundaries of another administrative unit. All National Forest System lands fall within one and only one Administrative Forest Area.

**USDA Forest Service, Automated Lands Program (ALP). 2018. S_USA.RangerDistrict (http://data.fs.usda.gov/geodata/edw). Description: A depiction of the boundary that encompasses a Ranger District.

***Based on MODIS-based classified map resampled from 250m to 500m resolution and reclassified from 3 to 2 classes: 1:forest; 2:nonforest. Projected in Albers Conical Equal Area, Datum NAD27 (Ruefenacht et al. 2008). Clipped to extent of WYbighorn_adminbnd.shp.

****USGS National Elevation Dataset (NED), resampled from 30m resolution to 250m. Projected in Albers Conical Equal Area, Datum NAD27 (U.S. Geological Survey 2017). Clipped to boundary of WYbighorn_adminbnd.shp.

Set up

First, you'll need to load the FIESTA library:

library(FIESTA)

Next, you'll need to set up an "outfolder". This is just a file path to a folder where you'd like FIESTA to send your data output. For our purposes in this vignette, we have saved our outfolder file path as the outfolder object in a temporary directory. We also set a few default options preferred for this vignette.

outfolder <- tempdir()

Get data for examples

View Getting Data

Now that we've loaded FIESTA and setup our outfolder, we can retrieve the data needed to run the examples. First, we point to some external data and predictor layers stored in FIESTA and derive new predictor layers using the terra package.

# File names for external spatial data
WYbhfn <- system.file("extdata", "sp_data/WYbighorn_adminbnd.shp", package="FIESTA")
WYbhdistfn <- system.file("extdata", "sp_data/WYbighorn_districtbnd.shp", package="FIESTA")
WYbhdist.att <- "DISTRICTNA"

fornffn <- system.file("extdata", "sp_data/WYbighorn_forest_nonforest_250m.tif", package="FIESTA")
demfn <- system.file("extdata", "sp_data/WYbighorn_dem_250m.img", package="FIESTA")

# Derive new predictor layers from dem
library(terra)
dem <- rast(demfn)
slpfn <- paste0(outfolder, "/WYbh_slp.img")
slp <- terra::terrain(dem,
                      v = "slope",
                      unit = "degrees",
                      filename = slpfn, 
                      overwrite = TRUE, 
                      NAflag = -99999.0)
aspfn <- paste0(outfolder, "/WYbh_asp.img")
asp <- terra::terrain(dem,
                      v = "aspect",
                      unit = "degrees", 
                      filename = aspfn,
                      overwrite = TRUE, 
                      NAflag = -99999.0)

Next, we set up our small area domains with FIESTA::spGetSAdoms. For more information on how to use this function, please see the sp vignette included with FIESTA (link).

smallbnd <- WYbhdistfn
smallbnd.domain <- "DISTRICTNA"

Next, we can get our FIA plot data and set up our auxiliary data. We can get our FIA plot data with the spGetPlots function from FIESTA, which accesses data through FIA's DataMart. Here, data are downloaded for all states intersecting boundary, then subset to boundary.

SApltdat <- spGetPlots(bnd = WYbhdistfn,
                       xy_datsource = "obj",
                       xy = WYplt,
                       xy_opts = list(xy.uniqueid = "CN", xvar = "LON_PUBLIC", 
                                    yvar = "LAT_PUBLIC", xy.crs = 4269),
                       datsource = "obj",
                       istree = TRUE,
                       isseed = TRUE,
                       dbTabs = list(plot_layer = WYplt, cond_layer = WYcond,
                                   tree_layer = WYtree, seed_layer = WYseed),
                       eval = "custom",
                       eval_opts = list(invyrs = 2011:2013),
                       showsteps = TRUE,
                       returnxy = TRUE,
                       savedata_opts = savedata_options(outfolder = outfolder))

str(SApltdat, max.level = 1)

Finally, we must generate the dataset with predictors for small area estimation. We can do this with the spGetAuxiliary function from FIESTA. Again, see the sp vignette for further information on this function.

rastlst.cont <- c(demfn, slpfn, aspfn)
rastlst.cont.name <- c("dem", "slp", "asp")
rastlst.cat <- fornffn
rastlst.cat.name <- "fornf"

unit_layer <- WYbhdistfn
unitvar <- "DISTRICTNA"

auxdat <- spGetAuxiliary(
  xyplt = SApltdat$spxy,
  uniqueid = "PLT_CN",
  unit_layer = unit_layer,
  unitvar = "DISTRICTNA",
  rastlst.cont = rastlst.cont,
  rastlst.cont.name = rastlst.cont.name,
  rastlst.cont.stat = "mean",
  rastlst.cont.NODATA = 0,
  rastlst.cat = rastlst.cat,
  rastlst.cat.name = rastlst.cat.name,
  asptransform = TRUE,
  rast.asp = aspfn,
  keepNA = FALSE,
  showext = FALSE,
  savedata = FALSE
)
names(auxdat)

str(auxdat, max.level = 1)

Examples

modSApop

Example 1: Creating our population dataset with modMApop

View Example

We can create our population data for model-assisted estimation. To do so, we use the modSApop function in FIESTA. We must assign our plot data with the pltdat argument, the auxiliary dataset with the auxdat argument, and set information for our small areas with the smallbnd and smallbnd.domain arguments. The spGetPlots and spGetAuxiliary functions have done much of the hard work for us so far, so we can just run a simple call to modSApop:

SApopdat <- modSApop(pltdat = SApltdat, 
                     auxdat = auxdat,
                     smallbnd = WYbhdistfn,
                         smallbnd.domain = smallbnd.domain)

Note that the modSApop function returns a list with lots of information and data for us to use. For a quick look at what this list includes we can use the str function:

str(SApopdat, max.level = 1)

Now that we've created our population dataset, we can move on to estimation.

modSAarea

Example 2: Area of forest land, unit-level EBLUP

View Example

First, we can set up our predictors as a vector:

all_preds <- c("slp", "dem", "asp_cos", "asp_sin", "fornf")

Next, we fit the unit-level EBLUP with the JoSAE R package.

area1 <- modSAarea(
  SApopdatlst = SApopdat,        # pop - population calculations for WY, post-stratification
  prednames = all_preds,         # est - character vector of predictors to be used in the model
  SApackage = "JoSAE",           # est - character string of the R package to do the estimation
  SAmethod = "unit"              # est - method of small area estimation. Either "unit" or "area"
  )

The modSAarea function outputs a list, and we can see our estimates and estimation method.

str(area1, max.level = 1)
area1$est
area1$raw$SAmethod

We can also look further into the raw list below:

str(area1$raw, max.level = 1)

Example 3: Area of forest land, area-level EBLUP

View Example

In this example, we fit an area level EBLUP with JoSAE, while only using slp as a predictor. We use only one predictor in the area level model because at the area level, we only have three rows in our dataset. Since we also have a random effect term, the model we fit can have a maximum of one predictor without being exactly singular.

area2 <- modSAarea(
  SApopdatlst = SApopdat,   # pop - population calculations for WY, post-stratification
  prednames = "slp",        # est - character vector of predictors to be used in the model
  SApackage = "JoSAE",      # est - character string of the R package to do the estimation
  SAmethod = "area",        # est - method of small area estimation. Either "unit" or "area"
  multest = TRUE
  )

We again can see our estimates. Notably, we have slightly larger percent sampling errors to the unit-level model fit in Example 2. This is likely due to only being able to incorporate one predictor's worth of information to the model.

area2$est

Since FIESTA will attempt fit all models when running modSAarea, we can look at all the different modeling approaches and their estimates with the multest object.

area2$multest

Notably, the hbsae models returned NAs with this model, likely due to computational issues with the integral they compute. Not to worry, though, we will fit models with hbsae in the next example.

Example 4: Area of forest land, hierarchical Bayesian models

View Example

FIESTA also supports the use of hierarchical Bayesian (HB) models through the hbsae package as an alternative to EBLUPs. These models use the same model specification as the EBLUP, however they fit the model using a hierarchical Bayesian framework, and get parameter estimates through numerical integration. Luckily, we do not have to take an integral ourselves to fit these models, we can just change the SApackage argument.

area3 <- modSAarea(
  SApopdatlst = SApopdat,   # pop - population calculations for WY, post-stratification
  prednames = all_preds,    # est - character vector of predictors to be used in the model
  SApackage = "hbsae",      # est - character string of the R package to do the estimation
  SAmethod = "unit",        # est - method of small area estimation. Either "unit" or "area"
  multest = TRUE
  )

We can again check our estimates, small area method, and small area package.

area3$est
area3$raw$SAmethod
area3$raw$SApackage

Example 5: Ara of forest land, hierarchical Bayesian models, changing prior distribution

View Example

Notably, we can also set priors on the ratio of between and within area variation with hbsae. By default, FIESTA uses a weakly informative half-Cauchy prior on this parameter as suggested by White et al (2021), but in this example we will fit the same model as before, but with a flat prior.

area4 <- modSAarea(
  SApopdatlst = SApopdat,     # pop - population calculations for WY, post-stratification
  prednames = all_preds,      # est - character vector of predictors to be used in the model
  SApackage = "hbsae",        # est - character string of the R package to do the estimation
  SAmethod = "unit",          # est - method of small area estimation. Either "unit" or "area"
  prior = function(x) 1       # est - prior on ratio of between and within area variation
  )

Let's check our results compared to Example 3 (same model with half-Cauchy prior)

area3$est
area4$est

Due to rounding we do in FIESTA, we see the same result. However, the estimates are slightly different. We can see this with the model objects supplied in the output list from FIESTA:

Example 6: Area of forest land, with model variable selection, JoSAE unit level EBLUP

View Example

FIESTA supports model variable selection via the elastic net. To use model selection, we set the modelselect argument to TRUE.

area5 <- modSAarea(
  SApopdatlst = SApopdat,      # pop - population calculations for WY, post-stratification
  prednames = all_preds,       # est - character vector of predictors to be used in the model
  SApackage = "JoSAE",         # est - character string of the R package to do the estimation
  SAmethod = "unit",           # est - method of small area estimation. Either "unit" or "area"
  modelselect = TRUE           # est - elastic net variable selection
  )

We can now look at estimates with our subset of selected predictors and the predictors that were selected.

area5$est
area5$raw$predselect.unit

modSAtree

We will set our estimate variable and filter now. We set estvar to "VOLCFNET" for net cubic foot volume, and filter with estvar.filter set to "STATUSCD == 1" so we only consider live trees in our estimation.

estvar <- "VOLCFNET"
live_trees <- "STATUSCD == 1"

Example 7: Total net cubic-foot volume of live trees (at least 5 inches diameter)

View Example

Now, we can look at the total net cubic-foot volume of live trees, filtered for live trees that are at least 5 inches in diameter. We use the estvar and live_trees objects defined above to set our response variable and filter, and then compute the estimates.

tree1 <- modSAtree(
    SApopdatlst = SApopdat,      # pop - population calculations for WY, post-stratification
    prednames = all_preds,       # est - character vector of predictors to be used in the model
    SApackage = "JoSAE",         # est - character string of the R package to do the estimation
    SAmethod = "unit",           # est - method of small area estimation. Either "unit" or "area" 
    landarea = "FOREST",         # est - forest land filter
    estvar = estvar,             # est - net cubic-foot volume
    estvar.filter = live_trees   # est - live trees only
    )

With both modSAtree and modSAarea, FIESTA will return your requested estimates specified with the SApackage and SAmethod arguments in the est item, but will return all possible estimates in the multest item. We can see these estimates below:

tree1$est
tree1$multest

Notably, the area level models are NA in for this model, as there were more predictors than degrees of freedom in the model at the area level.

Example 8: Total net cubic-foot volume of live trees (at least 5 inches diameter), using model selection

View Example

We can bring the modelselect parameter into play with modSAtree as well as modSAarea. In the below code, we set modelselect = TRUE to use the elastic net variable selection before fitting the model.

tree2 <- modSAtree(
    SApopdatlst = SApopdat,      # pop - population calculations for WY, post-stratification
    prednames = all_preds,       # est - character vector of predictors to be used in the model
    SApackage = "JoSAE",         # est - character string of the R package to do the estimation
    SAmethod = "unit",           # est - method of small area estimation. Either "unit" or "area"  
    landarea = "FOREST",         # est - forest land filter
    estvar = estvar,             # est - net cubic-foot volume
    estvar.filter = live_trees,   # est - live trees only
    modelselect = TRUE
    )

We now can look at the selected predictors and estimates.

tree2$raw$predselect.unit
tree2$est

Example 9: Basal area of live trees (at least 5 inches diameter), unit EBLUP from JoSAE

View Example

We can also use different response variables to estimate, and in this example we chose basal area. We also returned titles by using returntitle = TRUE.

tree3 <- modSAtree(
    SApopdatlst = SApopdat,      # pop - population calculations for WY, post-stratification
    prednames = all_preds,       # est - character vector of predictors to be used in the model
    SApackage = "JoSAE",         # est - character string of the R package to do the estimation
    SAmethod = "unit",           # est - method of small area estimation. Either "unit" or "area"  
    landarea = "FOREST",         # est - forest land filter
    estvar = "BA",               # est - net cubic-foot volume
    estvar.filter = live_trees,  # est - live trees only
    returntitle = TRUE
    )

Now we can take a look at our estimates:

tree3$est

and see our title list since we set returntitle to TRUE.

tree3$titlelst

Example 10: Basal area of live trees (at least 5 inches diameter), area EBLUP from sae

View Example

Now, we can of course fit a different model to estimate basal area. In this case, we choose to use dem to predict basal area with an area-level EBLUP from the sae package.

tree4 <- modSAtree(
    SApopdatlst = SApopdat,      # pop - population calculations for WY, post-stratification
    prednames = "dem",       # est - character vector of predictors to be used in the model
    SApackage = "sae",         # est - character string of the R package to do the estimation
    SAmethod = "area",           # est - method of small area estimation. Either "unit" or "area"  
    landarea = "FOREST",         # est - forest land filter
    estvar = "BA",               # est - net cubic-foot volume
    estvar.filter = live_trees,  # est - live trees only
    returntitle = TRUE
    )

Now we can take a look at our estimates.

tree4$est

Example 11: Basal area of live trees (at least 5 inches diameter), saving to an outfolder

View Example

One may want to easily save FIESTA output to your computer, rather than just having it live in the R environment. FIESTA makes this easy with the use of the savedata and savedata_opts arguments. If savedata = TRUE, by default the output will be saved to your working directory, but we can set an outfolder in savedata_opts to choose where the data should be saved. There are many other savedata_opts, and these can be seen by looking at the help file for the savedata_options function (use help(savedata_options) with FIESTA loaded in your R environment).

tree5 <- modSAtree(
    SApopdatlst = SApopdat,      # pop - population calculations for WY, post-stratification
    prednames = all_preds,       # est - character vector of predictors to be used in the model
    SApackage = "JoSAE",         # est - character string of the R package to do the estimation
    SAmethod = "unit",           # est - method of small area estimation. Either "unit" or "area"  
    landarea = "FOREST",         # est - forest land filter
    estvar = "BA",               # est - net cubic-foot volume
    estvar.filter = live_trees,  # est - live trees only
    savedata = TRUE,
    savedata_opts = savedata_options(
      outfolder = outfolder
    )
    )

Example 12: Basal area of live trees (at least 5 inches diameter), HB model

View Example

We can also of course use a different model to predict basal area, and in this case we use a HB unit level model from hbsae. We also save to an outfolder again, this time giving a file name prefix with the outfn.pre arguement.

tree6 <- modSAtree(
    SApopdatlst = SApopdat,      # pop - population calculations for WY, post-stratification
    prednames = all_preds,       # est - character vector of predictors to be used in the model
    SApackage = "hbsae",         # est - character string of the R package to do the estimation
    SAmethod = "unit",           # est - method of small area estimation. Either "unit" or "area"  
    landarea = "FOREST",         # est - forest land filter
    estvar = "BA",               # est - net cubic-foot volume
    estvar.filter = live_trees,  # est - live trees only
    savedata = TRUE,
    savedata_opts = savedata_options(
      outfolder = outfolder,
      outfn.pre = "HB_unit"
    )
    )

We can see the files in the outfolder here:

list.files(outfolder, pattern = "HB")

And the estimates here:

tree6$est

References

Breidenbach J. 2018. JoSAE: Unit-Level and Area-Level Small Area Estimation.

Molina I, Marhuenda Y. 2015. sae: An R Package for Small Area Estimation. The R Journal, 7(1), 81–98. https://journal.r-project.org/archive/2015/RJ-2015-007/RJ-2015-007.pdf.

Rao, J.N.K. 2003. Small Area Estimation. Wiley, Hoboken, New Jersey.

FIESTA documentation built on Nov. 22, 2023, 1:07 a.m.