Abstract
An accurate inventory map is a prerequisite for the analysis of landslide susceptibility, hazard, and risk. Field survey, optical remote sensing, and synthetic aperture radar techniques are traditional techniques for landslide detection in tropical regions. However, such techniques are time consuming and costly. In addition, the dense vegetation of tropical forests complicates the generation of an accurate landslide inventory map for these regions. Given its ability to penetrate vegetation cover, high-resolution airborne light detection and ranging (LiDAR) has been used to generate accurate landslide maps. This study proposes the use of recurrent neural networks (RNN) and multi-layer perceptron neural networks (MLP-NN) in landscape detection. These efficient neural architectures require little or no prior knowledge compared with traditional classification methods. The proposed methods were tested in the Cameron Highlands, Malaysia. Segmentation parameters and feature selection were respectively optimized using a supervised approach and correlation-based feature selection. The hyper-parameters of network architecture were defined based on a systematic grid search. The accuracies of the RNN and MLP-NN models in the analysis area were 83.33% and 78.38%, respectively. The accuracies of the RNN and MLP-NN models in the test area were 81.11%, and 74.56%, respectively. These results indicated that the proposed models with optimized hyper-parameters produced the most accurate classification results. LiDAR-derived data, orthophotos, and textural features significantly affected the classification results. Therefore, the results indicated that the proposed methods have the potential to produce accurate and appropriate landslide inventory in tropical regions such as Malaysia.
Highlights
Landslides are dangerous geological disasters with catastrophic effects on human lives and properties
A high-resolution digital elevation model (DEM) at 0.5 m was derived from light detection and ranging (LiDAR) point clouds compactness) at various levels of segmentation were obtained via a supervised approach, i.e. a fuzzy‐
The recurrent neural networks (RNN) and multi-layer perceptron neural networks (MLP-neural network (NN)) models with optimized parameters were used for landslide detection with good accuracy
Summary
Landslides are dangerous geological disasters with catastrophic effects on human lives and properties. Mapping a landslide inventory in tropical areas is challenging because the dense vegetation cover in these regions obscures underlying landforms [4]. The majority of available conventional landslide detection techniques are not rapid and accurate enough for inventory mapping given the rapid vegetation growth in tropical regions. LiDAR has the unique capability to penetrate densely vegetated areas [5] and provide detailed information on terrains with high point density. It depicts ground surface features and provides useful information on topographical features in areas where landslide locations are obscured by vegetation cover [6,7]
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