Abstract
Since the availability of high-resolution Airborne Laser Scanning (ALS) data, substantial progress in geomorphological research, especially in landslide analysis, has been carried out. First and second order derivatives of Digital Terrain Model (DTM) have become a popular and powerful tool in landslide inventory mapping. Nevertheless, an automatic landslide mapping based on sophisticated classifiers including Support Vector Machine (SVM), Artificial Neural Network or Random Forests is often computationally time consuming. The objective of this research is to deeply explore topographic information provided by ALS data and overcome computational time limitation. For this reason, an extended set of topographic features and the Principal Component Analysis (PCA) were used to reduce redundant information. The proposed novel approach was tested on a susceptible area affected by more than 50 landslides located on Rożnów Lake in Carpathian Mountains, Poland. The initial seven PCA components with 90% of the total variability in the original topographic attributes were used for SVM classification. Comparing results with landslide inventory map, the average user’s accuracy (UA), producer’s accuracy (PA), and overall accuracy (OA) were calculated for two models according to the classification results. Thereby, for the PCA-feature-reduced model UA, PA, and OA were found to be 72%, 76%, and 72%, respectively. Similarly, UA, PA, and OA in the non-reduced original topographic model, was 74%, 77% and 74%, respectively. Using the initial seven PCA components instead of the twenty original topographic attributes does not significantly change identification accuracy but reduce computational time.
Highlights
Landslides are natural hazard causing significant damages to the environment in many countries
The results obtained show that object-oriented image analysis (OOA) using Digital Elevation Model (DEM)-derivatives allows them to recognize more than 90% of the main scarps and 70% of the landslide bodies
The objective of this research is to deeply explore topographic information provided by the Airborne Laser Scanning (ALS) data and to decrease the computational time in semi-automatic and computer-aided landslide mapping
Summary
Landslides are natural hazard causing significant damages to the environment in many countries. Landslides can be fatal and can destroy or damage natural landforms. Landslides have disruptive impact on man-made structures such as buildings, agricultural and forestial lands and on water in rivers and streams (Akgun and Erkan, 2016; Schuster and Fleming, 1986). Because of the increasing socio-awareness of landslide impact on the environment, efficient landslide assessment is required (Aleotti and Chowdhury, 1999). Many countries created or are creating their own national or regional landslide databases (LDBs). This is a fundamental source for quantitative zoning of landslide susceptible areas (Van Den Eeckhaut and Hervás, 2012)
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