Abstract
We propose the Point Cloud Tree Species Classification Network (PCTSCN) to overcome challenges in classifying tree species from laser data with deep learning methods. The network is mainly composed of two parts: a sampling component in the early stage and a feature extraction component in the later stage. We used geometric sampling to extract regions with local features from the tree contours since these tend to be species-specific. Then we used an improved Farthest Point Sampling method to extract the features from a global perspective. We input the intensity of the tree point cloud as a dimensional feature and spatial information into the neural network and mapped it to higher dimensions for feature extraction. We used the data obtained by Terrestrial Laser Scanning (TLS) and Unmanned Aerial Vehicle Laser Scanning (UAVLS) to conduct tree species classification experiments of white birch and larch. The experimental results showed that in both the TLS and UAVLS datasets, the input tree point cloud density and the highest feature dimensionality of the mapping had an impact on the classification accuracy of the tree species. When the single tree sample obtained by TLS consisted of 1024 points and the highest dimension of the network mapping was 512, the classification accuracy of the trained model reached 96%. For the individual tree samples obtained by UAVLS, which consisted of 2048 points and had the highest dimension of the network mapping of 1024, the classification accuracy of the trained model reached 92%. TLS data tree species classification accuracy of PCTSCN was improved by 2–9% compared with other models using the same point density, amount of data and highest feature dimension. The classification accuracy of tree species obtained by UAVLS was up to 8% higher. We propose PCTSCN to provide a new strategy for the intelligent classification of forest tree species.
Highlights
Accurate classification of tree species is essential for forest resource management and ecological conservation [1,2,3]
This paper proposed Point Cloud Tree Species Classification Network (PCTSCN) based on deep learning, which solved the problem that 3D tree point cloud data were difficult to directly train as a sample to obtain a deep learning model
To verify the applicability of the method proposed in this paper, PCTSCN was used to classify the tree species of data obtained by both Terrestrial Laser Scanning (TLS) and Unmanned Aerial Vehicle Laser Scanning (UAVLS)
Summary
Accurate classification of tree species is essential for forest resource management and ecological conservation [1,2,3]. Remote sensing technologies are widely used in forest surveys because they allow to rapidly gather large-scale observations in a timely and periodical manner [4,5,6]. Light Detection and Ranging (LiDAR) is an active remote sensing technology with the ability to quickly and accurately extract three-dimensional feature information. LiDAR permits all-weather operations compared with optical remote sensing satellites and is less affected by the external environment. LiDAR has powerful low-altitude detection advantages [7,8].
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