A comprehensive transferability evaluation of U-Net and ResU-Net for landslide detection from Sentinel-2 data (case study areas from Taiwan, China, and Japan)

Ghorbanzadeh, Omid; Crivellari, Alessandro; Ghamisi, Pedram; Shahabi, Hejar; Blaschke, Thomas

doi:10.1038/s41598-021-94190-9

Cited by 87 publications

(54 citation statements)

References 49 publications

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“…ResU-Net [67,68], as a classical network in semantic segmentation, has achieved great success in landslide detection tasks [34,38,39]. It has been demonstrated that the skip connection in U-Net effectively alleviates the detail loss problem due to convolution, and the residual structure prevents the vanishing gradient when mining deeper information [38].…”

Section: Attention Transu-netmentioning

confidence: 99%

“…Furthermore, Qi et al [38] proved that the U-Net with ResNet50 can improve the performance of the model on rainfallinduced landslide detection. Ghorbanzadeh et al [39] firstly used the free Sentinel-2 data in landslide identification by evaluating the performance of U-Net and ResU-Net in three different landslide areas, the result indicated that ResU-Net obtained the highest F1-score. To alleviate the lack of generalization of the model caused by various landslide morphologies, Yi et al [18] introduced an attention mechanism to assign weights for important feature maps in ResU-Net, the F1-score on the proposed model was improved by 7% compared to ResU-Net.…”

Section: Introductionmentioning

confidence: 99%

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Landslide Detection Based on ResU-Net with Transformer and CBAM Embedded: Two Examples with Geologically Different Environments

Xu¹,

2022

Remote Sensing

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An efficient method of landslide detection can provide basic scientific data for emergency command and landslide susceptibility mapping. Compared to a traditional landslide detection approach, convolutional neural networks (CNN) have been proven to have powerful capabilities in reducing the time consumed for selecting the appropriate features for landslides. Currently, the success of transformers in natural language processing (NLP) demonstrates the strength of self-attention in global semantic information acquisition. How to effectively integrate transformers into CNN, alleviate the limitation of the receptive field, and improve the model generation are hot topics in remote sensing image processing based on deep learning (DL). Inspired by the vision transformer (ViT), this paper first attempts to integrate a transformer into ResU-Net for landslide detection tasks with small datasets, aiming to enhance the network ability in modelling the global context of feature maps and drive the model to recognize landslides with a small dataset. Besides, a spatial and channel attention module was introduced into the decoder to effectually suppress the noise in the feature maps from the convolution and transformer. By selecting two landslide datasets with different geological characteristics, the feasibility of the proposed model was validated. Finally, the standard ResU-Net was chosen as the benchmark to evaluate the proposed model rationality. The results indicated that the proposed model obtained the highest mIoU and F1-score in both datasets, demonstrating that the ResU-Net with a transformer embedded can be used as a robust landslide detection method and thus realize the generation of accurate regional landslide inventory and emergency rescue.

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Section: Attention Transu-netmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Landslide Detection Based on ResU-Net with Transformer and CBAM Embedded: Two Examples with Geologically Different Environments

Xu¹,

2022

Remote Sensing

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“…We extracted patches of 128 x 128 pixels from the input satellite images, as suitable input for CNNs, based on Ghorbanzadeh et al (2021) and Prakash et al (2021), who reported optimal accuracies of F1score, Precision, and Recall using this patch size. By rasterizing the manual inventory of the different years with 5 meter grid cells, the associated binary masks were created.…”

Section: Study Areamentioning

confidence: 99%

“…The U-Net model has been used extensively for landslide detection (Ronneberger, et al, 2015) due to its robust network structure and segmented pixels as outputs (Ghorbanzadeh, et al , 2021;Prakash et al , 2021;Zhang et al, 2018). The U-Net model (Figure 3) has many advantages.…”

Section: Model Training and Transfer Learningmentioning

confidence: 99%

Mapping landslides through a temporal lens: An insight towards multi-temporal landslide mapping using the U-Net deep learning model

Bhuyan¹,

Meena²,

Nava³

et al. 2022

Preprint

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Repeated temporal mapping of landslides is essential for investigating changes in landslide movements, legacy effects of the landslide triggering events, and susceptibility changes in the area. However, in order to perform such investigations, multi-temporal (MT) inventories of landslides are required. The traditional approach of visual interpretation from cloud-free optical remote sensing imageries is time consuming and expensive. Recent endeavours exploring Convolutional Neural Networks and deep learning models have made rapid and accurate mapping of landslides feasible but have not been applied for multi-temporal landslide mapping in the Himalayas, yet. Earlier models used a standard supervised learning approach, with a small landslide inventory over a limited area used for training , which is then utilized to predict landslides in nearby areas. We propose a new strategy, using geographically separate training samples to design a standard approach which can be utilized to create multi-temporal landslide inventories. RapidEye images of 5-metres spatial resolution are used to generate MT landslide inventories in the study area of Rasuwa district, Nepal. We test the effectiveness of the model by training with only 55 landslides and predicting for a different area. Then, using the weights attained from this first training phase, we use transfer learning to map landslides over a time period between 2013 and 2019 in the Rasuwa district. We also adopt data augmentation techniques to add more training samples, leading to higher overall accuracies ranging from 58% in 2015 to 80% in 2017. We also perform a spatial comparison between the manual (observed) and predicted inventories to evaluate the differences between landslide densities and overall landslide statistics of landslide area distribution. The benefit of a transfer learning-based model training is that it circumvents the need for generating annual inventories for training a deep learning. A single event based inventory is enough to generate landslide inventories over a number of years, at least until landslide preparatory conditions do not change significantly. This application can enable automated workflows to generate MT landslide inventories of particular areas as the basis for landslide evolution and movement change analysis.

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“…But these methods are lacking in accuracy and recognition speed. Some scholars use u-net neural network to extract landslide deformation information (Ghorbanzadeh et al, 2021). Sanghoon Lee et al, used U-Net to quantitative spatial analysis on whole slide images (Lee et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

A Novel Method for Extracting Time Series Information of Deformation Area of a Single Landslide Based on Improved U-Net Neural Network

Dai

Wang

et al. 2021

Front. Earth Sci.

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This paper proposed an improved U-Net fully convolutional neural network to automatically extract a single landslide deformation information under time series based on the physical model experiments. This method extracts time series information for three different landslide deformation ranges. Compared to U-Net and mainstream superpixel method, evaluation indicators of DSC, VOE and RVD verify the high recognition accuracy and strong robustness of our method.

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A comprehensive transferability evaluation of U-Net and ResU-Net for landslide detection from Sentinel-2 data (case study areas from Taiwan, China, and Japan)

Cited by 87 publications

References 49 publications

Landslide Detection Based on ResU-Net with Transformer and CBAM Embedded: Two Examples with Geologically Different Environments

Landslide Detection Based on ResU-Net with Transformer and CBAM Embedded: Two Examples with Geologically Different Environments

Mapping landslides through a temporal lens: An insight towards multi-temporal landslide mapping using the U-Net deep learning model

A Novel Method for Extracting Time Series Information of Deformation Area of a Single Landslide Based on Improved U-Net Neural Network

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