Standard Standard

Most similar neighbor imputation of forest attributes using metrics derived from combined airborne LIDAR and multispectral sensors. / Valbuena, Ruben; Hernando, Ana; Manzanera, Jose Antonio et al.
In: International Journal of Digital Earth, Vol. 11, No. 12, 2018, p. 1205-1218.

Research output: Contribution to journalArticlepeer-review

HarvardHarvard

Valbuena, R, Hernando, A, Manzanera, JA, Martínez-Falero, E, García-Abril, A & Mola-Yudego, B 2018, 'Most similar neighbor imputation of forest attributes using metrics derived from combined airborne LIDAR and multispectral sensors', International Journal of Digital Earth, vol. 11, no. 12, pp. 1205-1218. https://doi.org/10.1080/17538947.2017.1387183

APA

Valbuena, R., Hernando, A., Manzanera, J. A., Martínez-Falero, E., García-Abril, A., & Mola-Yudego, B. (2018). Most similar neighbor imputation of forest attributes using metrics derived from combined airborne LIDAR and multispectral sensors. International Journal of Digital Earth, 11(12), 1205-1218. https://doi.org/10.1080/17538947.2017.1387183

CBE

Valbuena R, Hernando A, Manzanera JA, Martínez-Falero E, García-Abril A, Mola-Yudego B. 2018. Most similar neighbor imputation of forest attributes using metrics derived from combined airborne LIDAR and multispectral sensors. International Journal of Digital Earth. 11(12):1205-1218. https://doi.org/10.1080/17538947.2017.1387183

MLA

VancouverVancouver

Valbuena R, Hernando A, Manzanera JA, Martínez-Falero E, García-Abril A, Mola-Yudego B. Most similar neighbor imputation of forest attributes using metrics derived from combined airborne LIDAR and multispectral sensors. International Journal of Digital Earth. 2018;11(12):1205-1218. Epub 2017 Oct 13. doi: 10.1080/17538947.2017.1387183

Author

Valbuena, Ruben ; Hernando, Ana ; Manzanera, Jose Antonio et al. / Most similar neighbor imputation of forest attributes using metrics derived from combined airborne LIDAR and multispectral sensors. In: International Journal of Digital Earth. 2018 ; Vol. 11, No. 12. pp. 1205-1218.

RIS

TY - JOUR

T1 - Most similar neighbor imputation of forest attributes using metrics derived from combined airborne LIDAR and multispectral sensors

AU - Valbuena, Ruben

AU - Hernando, Ana

AU - Manzanera, Jose Antonio

AU - Martínez-Falero, Eugenio

AU - García-Abril, Antonio

AU - Mola-Yudego, Blas

N1 - cited By 0

PY - 2018

Y1 - 2018

N2 - In the context of predicting forest attributes using a combination of airborne LIDAR and multispectral (MS) sensors, we suggest the inclusion of normalized difference vegetation index (NDVI) metrics along with the more traditional LIDAR height metrics. Here the data fusion method consists of back-projecting LIDAR returns onto original MS images, avoiding co-registration errors. The prediction method is based on non-parametric imputation (the most similar neighbor). Predictor selection and accuracy assessment include hypothesis tests and over-fitting prevention methods. Results show improvements when using combinations of LIDAR and MS compared to using either of them alone. The MS sensor has little explanatory capacity for forest variables dependent on tree height, already well determined from LIDAR alone. However, there is potential for variables dependent on tree diameters and their density. The combination of LIDAR and MS sensors can be very beneficial for predicting variables describing forests structural heterogeneity, which are best described from synergies between LIDAR heights and NDVI dispersion. Results demonstrate the potential of NDVI metrics to increase prediction accuracy of forest attributes. Their inclusion in the predictor dataset may, however, in a few cases be detrimental to accuracy, and therefore we recommend to carefully assess the possible advantages of data fusion on a case-by-case basis

AB - In the context of predicting forest attributes using a combination of airborne LIDAR and multispectral (MS) sensors, we suggest the inclusion of normalized difference vegetation index (NDVI) metrics along with the more traditional LIDAR height metrics. Here the data fusion method consists of back-projecting LIDAR returns onto original MS images, avoiding co-registration errors. The prediction method is based on non-parametric imputation (the most similar neighbor). Predictor selection and accuracy assessment include hypothesis tests and over-fitting prevention methods. Results show improvements when using combinations of LIDAR and MS compared to using either of them alone. The MS sensor has little explanatory capacity for forest variables dependent on tree height, already well determined from LIDAR alone. However, there is potential for variables dependent on tree diameters and their density. The combination of LIDAR and MS sensors can be very beneficial for predicting variables describing forests structural heterogeneity, which are best described from synergies between LIDAR heights and NDVI dispersion. Results demonstrate the potential of NDVI metrics to increase prediction accuracy of forest attributes. Their inclusion in the predictor dataset may, however, in a few cases be detrimental to accuracy, and therefore we recommend to carefully assess the possible advantages of data fusion on a case-by-case basis

U2 - 10.1080/17538947.2017.1387183

DO - 10.1080/17538947.2017.1387183

M3 - Article

VL - 11

SP - 1205

EP - 1218

JO - International Journal of Digital Earth

JF - International Journal of Digital Earth

SN - 1753-8955

IS - 12

ER -