Abstract
Abstract. Landslide is one of the most common natural disasters triggered mainly due to heavy rainfall, cloud burst, earthquake, volcanic eruptions, unorganized constructions of roads, and deforestation. In India, field surveying is the most common method used to identify potential landslide regions and update the landslide inventories maintained by the Geological Survey of India, but it is very time-consuming, costly, and inefficient. Alternatively, advanced remote sensing technologies in landslide analysis allow rapid and easy data acquisitions and help to improve the traditional method of landslide detection capabilities. Supervised Machine learning algorithms, for example, Support Vector Machine (SVM), are challenging to conventional techniques by predicting disasters with astounding accuracy. In this research work, we have utilized open-source datasets (Landsat 8 multi-band images and JAXA ALOS DSM) and Google Earth Engine (GEE) to identify landslides in Rudraprayag using machine learning techniques. Rudraprayag is a district of Uttarakhand state in India, which has always been the center of attention of geological studies due to its higher density of landslide-prone zones. For the training and validation purpose, labeled landslide locations obtained from landslide inventory (prepared by the Geological Survey of India) and layers such as NDVI, NDWI, and slope (generated from JAXA ALOS DSM and Landsat 8 satellite multi-band imagery) were used. The landslide identification has been performed using SVM, Classification and Regression Trees (CART), Minimum Distance, Random forest (RF), and Naïve Bayes techniques, in which SVM and RF outperformed all other techniques by achieving an 87.5% true positive rate (TPR).
Highlights
It has been observed that natural disasters are increasing year by year due to the effect of global climate change and the rapid human settlement (Bamisaiye, 2019)
We import the required dataset, including Landsat 8 satellite imagery, digital surface model (DSM), and the landslides point obtained from the landslide inventory
The landslide points are used to label landslides in Landsat-8 imagery by marking point features, and for the catalog purpose, the labeled landslides are annotated by polygons
Summary
It has been observed that natural disasters are increasing year by year due to the effect of global climate change and the rapid human settlement (Bamisaiye, 2019). One of the hazardous geological events, is the downslope movement of rock mass and debris. It has no one particular reason for its occurrence. It can happen due to multiple reasons like Heavy rainfall, cloud burst, earthquake, improper human settlement or unorganized constructions (Haigh et al, 2012). A landslide can alter the natural surroundings causing a change of land cover. The most adverse effect is the loss of lives and livelihood in that region, and sometimes blockage of the roads causing a delay in transportation and emergency medical services (Pardeshi et al, 2013)
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