A New Mask R-CNN-Based Method for Improved Landslide Detection

This article presents a novel method of landslide detection by exploiting the Mask R-CNN capability of identifying an object layout by using a pixel-based segmentation, along with transfer learning used to train the proposed model. A data set of 160 elements is created containing landslide and nonla...

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Bibliographic Details
Published in:IEEE journal of selected topics in applied earth observations and remote sensing 2021, Vol.14, p.3799-3810
Main Authors: Ullo, Silvia, Mohan, Amrita, Sebastianelli, Alessandro, Ahamed, Shaik, Kumar, Basant, Dwivedi, Ramji, Sinha, Ganesh R.
Format: Article
Language:English
Subjects:
Algorithms
Backbone
Convolutional neural networks (CNNS)
Detection
global positioning system (GPS)
Image segmentation
Land use
landslide detection
Landslides
Mask R-CNN
Monitoring
Object detection
Performance evaluation
Recall
region based convolutional neural networks (R-CNN)
Remote sensing
Terrain factors
terrestrial laser scanning (TLS)
Training
Transfer learning
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Summary:This article presents a novel method of landslide detection by exploiting the Mask R-CNN capability of identifying an object layout by using a pixel-based segmentation, along with transfer learning used to train the proposed model. A data set of 160 elements is created containing landslide and nonlandslide images. The proposed method consists of three steps: augmenting training image samples to increase the volume of the training data; fine-tuning with limited image samples; and performance evaluation of the algorithm in terms of precision, recall, and F1 measure, on the considered landslide images, by adopting ResNet-50 and 101 as backbone models. The experimental results are quite encouraging as the proposed method achieves precision equals to 1.00, recall 0.93, and F1 measure 0.97, when ResNet-101 is used as backbone model, and with a low number of landslide photographs used as training samples. The proposed algorithm can be potentially useful for land-use planners and policymakers of hilly areas where intermittent slope deformations necessitate landslide detection as a prerequisite before planning.
ISSN:1939-1404
2151-1535
DOI:10.1109/JSTARS.2021.3064981