Abstract
This paper proposes a method to classify individual tree species groups based on individual tree segmentation and crown-level spectrum extraction (“crown-based ITC” for abbr.) in a natural mixed forest of Northeast China, and compares with the pixel-based classification and segment summarization results (“pixel-based ITC” for abbr.). Tree species is a basic factor in forest management, and it is traditionally identified by field survey. This paper aims to explore the potential of individual tree classification in a natural, needle-leaved and broadleaved mixed forest. First, individual trees were isolated, and the spectra of individual trees were then extracted. The support vector machine (SVM) and spectrum angle mapper (SAM) classifiers were applied to classify the trees species. The pixel-based classification results from hyperspectral data and LiDAR derived individual tree isolation were compared. The results showed that the crown-based ITC classified broadleaved trees better than pixel-based ITC, while the classes distribution of the crown-based ITC was closer to the survey data. This indicated that crown-based ITC performed better than pixel-based ITC. Crown-based ITC efficiently identified the classes of the dominant and sub-dominant species. Regardless of whether SVM or SAM was used, the identification consistency relative to the field observations for the class of the dominant species was greater than 90%. In contrast, the consistencies of the classes of the sub-dominant species were approximately 60%, and the overall consistency of both the SVM and SAM was greater than 70%.
Highlights
Tree species is a basic factor in forest inventories, and it is important for sustainable forest management, forest biodiversity, forest ecosystem security
The canopy height model (CHM) represents the canopy distribution of the upper surface of the forest, whereas the ground most the individual trees in the sample plot.ofThus, the ground survey
The results in Northeast China showed that the crown-based individual tree crowns (ITCs) method performed better than the pixel-based ITC method
Summary
Tree species is a basic factor in forest inventories, and it is important for sustainable forest management, forest biodiversity, forest ecosystem security. Tree species is identified by time consuming visual recognition by a specialist. Tree species distribution in large area, like a forest reserve, rather than a sample plot, are nearly impossible to be obtained just by fieldworks. Relying on the characteristics of large-scale continuous coverage, remote sensing has become the most efficient method to solve this problem [1]. A large number of researchers have used visible and near-infrared remote sensing images to identify tree species, mostly with medium and low resolution is dominant (from 30 m to 1 km), and the classification results are mixtures of tree species [2]. Into the 21st century, high spatial resolution, high temporal resolution, and high spectral
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