Soil organic carbon (SOC) is a vital component for sustainable agricultural
production. This research investigates the transfer learning-based neural
network model to improve classical machine learning estimation of SOC
values from other geochemical and physical soil parameters. The results on
datasets based on LUCAS data from 2015 showed that the Instance-based
transfer learning model captured the valuable information contained in different
source domains (cropland and grassland) of soil samples when estimating the
SOC values in arable cropland areas. The effects of using transfer learning are
more pronounced in the case of different source (grassland) and target
(cropland) domains. Obtained results indicate that the transfer learning (TL)
approach provides better or at least equal output results compared to the
classical machine learning procedure. The proposed TL methodology could be
used to generate a pedotransfer function (PTF) for target domains with
described sample...s and unknown related PTF outputs if the described
samples with known related PTF outputs from a different geographic or
similar land class source domain are available
Keywords:
soil organic carbon / estimation / LUCAS data / transfer learning / Bhattasharyya distance / PTF
TY - JOUR
AU - Bursać, Petar
AU - Kovačević, Miloš
AU - Bajat, Branislav
PY - 2022
UR - https://grafar.grf.bg.ac.rs/handle/123456789/2801
AB - Soil organic carbon (SOC) is a vital component for sustainable agricultural
production. This research investigates the transfer learning-based neural
network model to improve classical machine learning estimation of SOC
values from other geochemical and physical soil parameters. The results on
datasets based on LUCAS data from 2015 showed that the Instance-based
transfer learning model captured the valuable information contained in different
source domains (cropland and grassland) of soil samples when estimating the
SOC values in arable cropland areas. The effects of using transfer learning are
more pronounced in the case of different source (grassland) and target
(cropland) domains. Obtained results indicate that the transfer learning (TL)
approach provides better or at least equal output results compared to the
classical machine learning procedure. The proposed TL methodology could be
used to generate a pedotransfer function (PTF) for target domains with
described samples and unknown related PTF outputs if the described
samples with known related PTF outputs from a different geographic or
similar land class source domain are available
T2 - Frontiers in Environmental Science
T1 - Instance-based transfer learning for soil organic carbon estimation
DO - https://doi.org/10.3389/fenvs.2022.1003918
ER -
@article{
author = "Bursać, Petar and Kovačević, Miloš and Bajat, Branislav",
year = "2022",
abstract = "Soil organic carbon (SOC) is a vital component for sustainable agricultural
production. This research investigates the transfer learning-based neural
network model to improve classical machine learning estimation of SOC
values from other geochemical and physical soil parameters. The results on
datasets based on LUCAS data from 2015 showed that the Instance-based
transfer learning model captured the valuable information contained in different
source domains (cropland and grassland) of soil samples when estimating the
SOC values in arable cropland areas. The effects of using transfer learning are
more pronounced in the case of different source (grassland) and target
(cropland) domains. Obtained results indicate that the transfer learning (TL)
approach provides better or at least equal output results compared to the
classical machine learning procedure. The proposed TL methodology could be
used to generate a pedotransfer function (PTF) for target domains with
described samples and unknown related PTF outputs if the described
samples with known related PTF outputs from a different geographic or
similar land class source domain are available",
journal = "Frontiers in Environmental Science",
title = "Instance-based transfer learning for soil organic carbon estimation",
doi = "https://doi.org/10.3389/fenvs.2022.1003918"
}
Bursać, P., Kovačević, M.,& Bajat, B.. (2022). Instance-based transfer learning for soil organic carbon estimation. in Frontiers in Environmental Science.
https://doi.org/https://doi.org/10.3389/fenvs.2022.1003918
Bursać P, Kovačević M, Bajat B. Instance-based transfer learning for soil organic carbon estimation. in Frontiers in Environmental Science. 2022;.
doi:https://doi.org/10.3389/fenvs.2022.1003918 .
Bursać, Petar, Kovačević, Miloš, Bajat, Branislav, "Instance-based transfer learning for soil organic carbon estimation" in Frontiers in Environmental Science (2022),
https://doi.org/https://doi.org/10.3389/fenvs.2022.1003918 . .
