Abstract
Tropical forests play a vital role in biodiversity conservation and the maintenance of sustainability. Although different time-series spatial resolution satellite images have provided opportunities for tropical forests classification, the complexity and diversity of vegetation types still pose challenges, especially for distinguishing different vegetation types. In this paper, we proposed a Spectro-Temporal Feature Selection (STFS) method based on the Weighted Separation Index (WSI) using multi-temporal Sentinel-2 data for mapping tropical forests in Jianfengling area, Hainan Province. The results showed that the tropical forests were classified with an overall accuracy of 93% and an F1 measure of 0.92 with multi-temporal Sentinel-2 data. As our results also revealed, the WSI based STFS method could be efficient in tropical forests classification by using a fewer feature subset compared with Variable Selection Using Random Forest (14 features and all 40 features, respectively) to achieve the same accuracy. The analysis also showed it was not advisable to only pursue a higher WSI value while ignoring the heterogeneity and diversity of features. This study demonstrated that the WSI can provide a new feature selection method for multi-temporal remote sensing image classification.
Highlights
Tropical forests play an important role in biodiversity protection, regulation of climate change, prevention of soil erosion, and carbon sink estimation [1,2]
In the RED band, the curve of Rain forest (RF) and MRF had a peak in the February, while the Evergreen broadleaved forest (EBF) continuously raised
The separability was better in the data of November and December
Summary
Tropical forests play an important role in biodiversity protection, regulation of climate change, prevention of soil erosion, and carbon sink estimation [1,2]. It is one of the foundations of natural resources and the ecological environment. Tropical forests produce and store 40% of the world’s biomass carbon, which is extremely important for the global carbon cycle and ecological security closely related to humans. Tropical forests are the largest terrestrial component of the global carbon budget [3,4], which accounts for 50% of the carbon stored in the global vegetation (350–600 Gt C) [5,6].
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