A completely data-driven, design-based sampling strategy is proposed for mapping a forest attribute within the spatial units tessellating a survey region. Based on sample data, a model is selected, and model parameters are estimated using least-squares criteria for predicting the attribute of interest within units as a linear function of a set of auxiliary variables. The spatial interpolation of residuals arising from model predictions is performed by inverse distance weighting. The leave-one-out cross validation procedure is adopted for selecting the smoothing parameter used for interpolation. The densities of the attributes of interest within units are estimated by summing predictions and interpolated residuals. Finally, density estimates are rescaled to match the total estimate over the survey region obtained by the traditional regression estimator with the total estimate obtained from the map as the sum of the density estimates within units. A bootstrap procedure accounts for the uncertainty. The consistency of the strategy is proven by incorporating previous results. A simulation study is performed and an application for mapping wood volume densities in the forest estate of Rincine (Central Italy) is described.

Di Biase, R., Fattorini, L., Franceschi, S., Grotti, M., Puletti, N., Corona, P. (2022). From model selection to maps: A completely design-based data-driven inference for mapping forest resources. ENVIRONMETRICS, 33(7 (November 2022)) [10.1002/env.2750].

From model selection to maps: A completely design-based data-driven inference for mapping forest resources

Di Biase, Rosa Maria
;
2022

Abstract

A completely data-driven, design-based sampling strategy is proposed for mapping a forest attribute within the spatial units tessellating a survey region. Based on sample data, a model is selected, and model parameters are estimated using least-squares criteria for predicting the attribute of interest within units as a linear function of a set of auxiliary variables. The spatial interpolation of residuals arising from model predictions is performed by inverse distance weighting. The leave-one-out cross validation procedure is adopted for selecting the smoothing parameter used for interpolation. The densities of the attributes of interest within units are estimated by summing predictions and interpolated residuals. Finally, density estimates are rescaled to match the total estimate over the survey region obtained by the traditional regression estimator with the total estimate obtained from the map as the sum of the density estimates within units. A bootstrap procedure accounts for the uncertainty. The consistency of the strategy is proven by incorporating previous results. A simulation study is performed and an application for mapping wood volume densities in the forest estate of Rincine (Central Italy) is described.
Articolo in rivista - Articolo scientifico
density estimation; harmonization; model selection; predictions; pseudopopulation bootstrap; regression estimator; residuals; smoothing parameter; spatial interpolation;
English
4-ago-2022
2022
33
7 (November 2022)
e2750
none
Di Biase, R., Fattorini, L., Franceschi, S., Grotti, M., Puletti, N., Corona, P. (2022). From model selection to maps: A completely design-based data-driven inference for mapping forest resources. ENVIRONMETRICS, 33(7 (November 2022)) [10.1002/env.2750].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/389454
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