Above-ground biomass estimation from LiDAR data using random forest algorithms

• Published in: Journal of computational science Vol. 58; p. 101517
• Main Authors: Torre-Tojal, Leyre, Bastarrika, Aitor, Boyano, Ana, Lopez-Guede, Jose Manuel, Graña, Manuel
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.02.2022
• Subjects: Biomass; LiDAR; Random forest; Regression; Regression; Random forest; Biomass; LiDAR
• ISSN: 1877-7503; 1877-7511
• DOI: 10.1016/j.jocs.2021.101517

•The paper explores Random Forest models to estimate the biomass.•In the paper real data of Pinus Radiata species in a specific area of the Basque Country (Spain) were used.•The LiDAR data used to create the models are of low-density•The dataset used to create the models has a very small size.•Two models were obtained showing an R2 higher than 0.7 and a prediction between 16–18 % higher than those given by the Basque Government. Random forest (RF) models were developed to estimate the biomass for the Pinus radiata species in a region of the Basque Autonomous Community where this species has high cover, using the National Forest Inventory, allometric equations and low-density discrete LiDAR data. This article explores the tuning for RF hyperparameters, obtaining two models with an R2 higher than 0.7 using 2-fold cross-validation. The models selected were applied in Orozko, a municipality with more than 5000 ha of this species, where the model predicts a biomass of 1.06–1.08 Mton, which is between 16–18 % higher than the biomass predicted by the Basque Government.