Abstract
Abstract. This paper presents an automated workflow for pixel-wise land cover (LC) classification from multispectral airborne laser scanning (ALS) data using deep learning methods. It mainly contains three procedures: data pre-processing, land cover classification, and accuracy assessment. First, a total of nine raster images with different information were generated from the pre-processed point clouds. These images were assembled into six input data combinations. Meanwhile, the labelled dataset was created using the orthophotos as the ground truth. Also, three deep learning networks were established. Then, each input data combination was used to train and validate each network, which developed eighteen LC classification models with different parameters to predict LC types for pixels. Finally, accuracy assessments and comparisons were done for the eighteen classification results to determine an optimal scheme. The proposed method was tested on six input datasets with three deep learning classification networks (i.e., 1D CNN, 2D CNN, and 3D CNN). The highest overall classification accuracy of 97.2% has been achieved using the proposed 3D CNN. The overall accuracy (OA) of the 2D and 3D CNNs was, on average, 8.4% higher than that of the 1D CNN. Although the OA of the 2D CNN was at most 0.3% lower than that of the 3D CNN, the runtime of the 3D CNN was five times longer than the 2D CNN. Thus, the 2D CNN was the best choice for the multispectral ALS LC classification when considering efficiency. The results demonstrated the proposed methods can successfully classify land covers from multispectral ALS data.
Highlights
Defined as the physical composition and features of objects at the surface of the Earth (Costa et al, 2018), land cover (LC) as a crucial parameter is used to supervise the changing world
It can be seen that the highest overall classification accuracy of 97.2%, with a kappa index of 0.96, can be achieved using the proposed 3D convolutional neural networks (CNN) and input data Combination 4
The 3D CNN obtains the highest overall accuracy (OA) and kappa coefficient, indicating that it has a high success for pixel-wise LC classification and performs significantly better than random
Summary
Defined as the physical composition and features of objects at the surface of the Earth (Costa et al, 2018), land cover (LC) as a crucial parameter is used to supervise the changing world. The rapid global urbanization increases social and economic opportunities, it affects stability and sustainability of the environment, accelerates the variation of land cover (LC), and consequentially brings challenges to the supervision of LC. With respect to the biogeophysical aspect, the change of LC directly impacts the physical composition and features of the Earth, which thereby affects the energy availability at the Earth's surface. It demonstrated that precise and efficient mapping of LC is essential to ensure an accurate representation of LC change, to protect the Earth and to ensure sustainable human-environment development (Zhong et al, 2017)
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