Abstract
Efficient methodologies for mapping forest types in complicated mountain areas are essential for the implementation of sustainable forest management practices and monitoring. Existing solutions dedicated to forest-type mapping are primarily focused on supervised machine learning algorithms (MLAs) using remote sensing time-series images. However, MLAs are challenged by complex and problematic forest type compositions, lack of training data, loss of temporal data caused by clouds obscuration, and selection of input feature sets for mountainous areas. The time-weighted dynamic time warping (TWDTW) is a supervised classifier, an adaptation of the dynamic time warping method for time series analysis for land cover classification. This study evaluates the performance of the TWDTW method that uses a combination of Sentinel-2 and Landsat-8 time-series images when applied to complicated mountain forest-type classifications in southern China with complex topographic conditions and forest-type compositions. The classification outputs were compared to those produced by MLAs, including random forest (RF) and support vector machine (SVM). The results presented that the three forest-type maps obtained by TWDTW, RF, and SVM have high consistency in spatial distribution. TWDTW outperformed SVM and RF with mean overall accuracy and mean kappa coefficient of 93.81% and 0.93, respectively, followed by RF and SVM. Compared with MLAs, TWDTW method achieved the higher classification accuracy than RF and SVM, with even less training data. This proved the robustness and less sensitivities to training samples of the TWDTW method when applied to mountain forest-type classifications.
Highlights
Mountain forests are vital for preventing soil erosion, protecting crops from wind and cold air, and protecting settlements, roads, and farmland from landslides, avalanches, and floods [1]
The forest-type maps obtained by time-weighted dynamic time warping (TWDTW), random forest (RF), and support vector machine (SVM) were compared for spatial distribution and the area statistics of forest types
The spatial distributions of forest types obtained by TWDTW, SVM, and RF are highly consistent
Summary
Mountain forests are vital for preventing soil erosion, protecting crops from wind and cold air, and protecting settlements, roads, and farmland from landslides, avalanches, and floods [1]. Because of human activities, natural disasters, and climate change, different types of forests have been destroyed at different degrees. Accurate forest-type maps are critical for monitoring and managing forest resources in various regions [2,3]. It is complicated to obtain the spatial distribution and quantity information of forest types through human investigation due to complex forest compositions and topographic conditions. Remote sensing technology provides unprecedented support for forest-type mapping [4]. Terrain fluctuations, cloud occlusions, and a lack of reference data further increase the difficulty of forest-type classification in mountainous areas using
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