dsm_varprop: Variance propagation for density surface models

View source: R/dsm_varprop.R

dsm_varpropR Documentation

Variance propagation for density surface models

Description

Calculate the uncertainty in predictions from a fitted DSM, including uncertainty from the detection function.

Usage

dsm_varprop(
  model,
  newdata = NULL,
  trace = FALSE,
  var.type = "Vp",
  var_type = NULL
)

Arguments

model

a fitted dsm.

newdata

the prediction grid. Set to NULL to avoid making predictions and just return model objects.

trace

for debugging, see how the scale parameter estimation is going.

var.type

which variance-covariance matrix should be used ("Vp" for variance-covariance conditional on smoothing parameter(s), "Vc" for unconditional). See gamObject for an details/explanation. If in doubt, stick with the default, "Vp".

var_type

deprecated, use var.type instead.

Details

When we make predictions from a spatial model, we also want to know the uncertainty about that abundance estimate. Since density surface models are 2 (or more) stage models, we need to incorporate the uncertainty from the earlier stages (i.e. the detection function) into our "final" uncertainty estimate.

This function will refit the spatial model but include the Hessian of the offset as an extra term. Variance estimates using this new model can then be used to calculate the variance of predicted abundance estimates which incorporate detection function uncertainty. Importantly this requires that if the detection function has covariates, then these do not vary within a segment (so, for example covariates like sex cannot be used).

For more information on how to construct the prediction grid data.frame, newdata, see predict.dsm.

This routine is only useful if a detection function with covariates has been used in the DSM.

Note that we can use var.type="Vc" here (see gamObject), which is the variance-covariance matrix for the spatial model, corrected for smoothing parameter uncertainty. See Wood, Pya & S\"afken (2016) for more information.

Models with fixed scale parameters (e.g., negative binomial) do not require an extra round of optimisation.

Value

a list with elements:

  • old_model fitted model supplied to the function as model

  • refit refitted model object, with extra term

  • pred point estimates of predictions at newdata

  • var total variance calculated over all of newdata

  • ses standard error for each prediction cell in newdata if newdata=NULL then the last three entries are NA.

Diagnostics

The summary output from the function includes a simply diagnostic that shows the average probability of detection from the "original" fitted model (the model supplied to this function; column Fitted.model) and the probability of detection from the refitted model (used for variance propagation; column Refitted.model) along with the standard error of the probability of detection from the fitted model (Fitted.model.se), at the unique values of any factor covariates used in the detection function (for continuous covariates the 5%, 50% and 95% quantiles are shown). If there are large differences between the probabilities of detection then there are potentially problems with the fitted model, the variance propagation or both. This can be because the fitted model does not account for enough of the variability in the data and in refitting the variance model accounts for this in the random effect.

Author(s)

David L. Miller, based on code from Mark V. Bravington and Sharon L. Hedley.

References

Bravington, M. V., Miller, D. L., & Hedley, S. L. (2021). Variance Propagation for Density Surface Models. Journal of Agricultural, Biological and Environmental Statistics. https://doi.org/10.1007/s13253-021-00438-2

Williams, R., Hedley, S.L., Branch, T.A., Bravington, M.V., Zerbini, A.N. and Findlay, K.P. (2011). Chilean Blue Whales as a Case Study to Illustrate Methods to Estimate Abundance and Evaluate Conservation Status of Rare Species. Conservation Biology 25(3), 526-535.

Wood, S.N., Pya, N. and S\"afken, B. (2016) Smoothing parameter and model selection for general smooth models. Journal of the American Statistical Association, 1-45.


dsm documentation built on Aug. 21, 2022, 1:07 a.m.