Abstract
Tropical forests are of vital importance for maintaining biodiversity, regulating climate and material cycles while facing deforestation, agricultural reclamation, and managing various pressures. Remote sensing (RS) can support effective monitoring and mapping approaches for tropical forests, and to facilitate this we propose a deep neural network with an encoder–decoder architecture here to classify tropical forests and their environment. To deal with the complexity of tropical landscapes, this method utilizes a multi-scale convolution neural network (CNN) to expand the receptive field and extract multi-scale features. The model refines the features with several attention modules and fuses them through an upsampling module. A two-stage training strategy is proposed to alleviate misclassifications caused by sample imbalances. A joint loss function based on cross-entropy loss and the generalized Dice loss is applied in the first stage, and the second stage used the focal loss to fine-tune the weights. As a case study, we use Hainan tropical reserves to test the performance of this model. Compared with four state-of-the-art (SOTA) semantic segmentation networks, our network achieves the best performance with two Hainan datasets (mean intersection over union (MIoU) percentages of 85.78% and 82.85%). We also apply the new model to classify a public true color dataset which has 17 semantic classes and obtain results with an 83.75% MIoU. This further demonstrates the applicability and potential of this model in complex classification tasks.
Highlights
Tropical forests, which are the most abundant and complex forest ecosystem, are crucial in regulating the global climate and providing various ecosystem services
By extracting and analyzing high-resolution spatial information and spectral information contained in images, such technology is able to classify land cover in forest areas with high precision
Many researchers have applied remote sensing-related technology to tropical forest research, such as mapping tropical forest classes [3,4], monitoring deforestation and degradation [5], and biomass estimation [6], among which the accurate classification of land cover is the basis of various studies
Summary
Tropical forests, which are the most abundant and complex forest ecosystem, are crucial in regulating the global climate and providing various ecosystem services. Despite their importance, these forests are heavily threatened by deforestation, plantations, and other human activities [1,2]. As an efficient large-scale observation technology, remote sensing has obvious advantages in forest resource monitoring. Many researchers have applied remote sensing-related technology to tropical forest research, such as mapping tropical forest classes [3,4], monitoring deforestation and degradation [5], and biomass estimation [6], among which the accurate classification of land cover is the basis of various studies
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