Cross-Regional Automatic Landslide Identification Research Based on Adaptive Attention U-Net Model
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摘要: 滑坡的发生往往会伴随着严重的财产损失和人员伤亡。因此,快速准确的识别滑坡发生位置对于滑坡损失评估和应急救援工作至关重要。近年来,基于卷积神经网络的滑坡自动识别已得到广泛研究,但仍存在由于形状多样且不规则识别完整性差、以及不同区域滑坡自动识别泛化性能差的问题。本文基于九寨沟震区的Planet卫星影像以及地形数据,提出自适应注意力机制的U-Net网络(Adaptively Attention U-Net, AA-UNet)用于识别滑坡,自适应注意力机制可以保证滑坡的完整性。结果表明,AA-UNet模型与现有模型相比,mIoU、F1、OA和Kappa系数更高,分别为90.01%、95.34、97.62%和89.26,证明本文方法在保证滑坡完整性方面的有效性。此外,通过迁移学习策略,AA-UNet模型在3种分辨率的数据集上使用直接迁移和10%样本微调的方法均表现出最佳性能,展现了其在跨区域滑坡检测中的强大泛化能力和鲁棒性。本研究不仅在理论上验证了AA-UNet模型在滑坡识别中的有效性和泛化能力,也为实际应用中跨区域滑坡检测提供了技术支持和实践指导,具有重要的理论意义和应用价值。Abstract: Landslides often result in serious property damage and casualties. Therefore, quickly and accurately identifying the location of landslides is crucial for supporting landslide loss assessment and emergency rescue work. In recent years, a large amount of research has been conducted on the automatic recognition of landslides based on convolutional neural networks. However, landslides still suffer from problems such as poor recognition integrity due to their diverse and irregular shapes, as well as poor generalization performance in automatic recognition of landslides in different regions. Based on Planet satellite images and terrain data of the Jiuzhaigou earthquake zone, this paper proposes an Adaptive Attention U-Net (AA-UNet) network with adaptive attention mechanism for automatic recognition of landslides. The adaptive attention mechanism can ensure the integrity of landslides. The experimental results show that the AA-UNet model achieves the highest mIoU, F1, OA, and Kappa coefficients compared to existing models, with values of 90.01%, 95.34, 97.62% and 89.26, respectively, proving the effectiveness of the proposed method in ensuring landslide integrity. Moreover, through transfer learning strategies, the AA-UNet model showed the best performance in both direct transfer and fine-tuning using only 10% of the samples in the Luding region, demonstrating its strong generalization ability and robustness in cross regional landslide detection. This study not only theoretically verifies the effectiveness and generalization ability of the AA-UNet model in landslide identification, but also provides technical support and practical guidance for cross regional landslide detection in practical applications, which has important theoretical significance and application value.
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Key words:
- Landslide /
- Recognition /
- Deep Learning /
- U-Net model /
- Transfer Learning
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图 5 不同模型的滑坡分割结果示例
Figure 5. Examples of landslide segmentation results from different models
图 6 九寨沟震区AA-UNet模型的识别结果
Figure 6. Identification results of AA-UNet model in Jiuzhaigou valley
图 8 泸定震区跨域误差分析与失败案例
Figure 8. Cross-domain error analysis and failure cases in the Luding area
表 1 研究区数据详细情况
Table 1. Detailed data of the study area
研究区 采集时间 传感器 分辨率 九寨沟 2017-10-05 Planet 3 m 泸定 2022-09—2022-10 无人机 1 m 2022-10-20 Planet 3 m 2022-09—2022-10 Sentinel-2 10 m 
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表 2 不同模型的定量评估结果
Table 2. Quantitative evaluation results of different models
模型 准确率 召回率 mIoU F1 OA Kappa CNN 89.24 92.37 83.74 90.72 95.83 81.44 ResUNet++ 89.70 90.64 82.91 90.16 95.7 80.32 U-Net 90.52 89.39 86.15 92.60 96.78 85.18 DeeplabV3+ 92.45 91.30 87.30 93.54 97.01 87.56 TSUBF-Net 94.77 87.96 84.21 90.98 96.40 81.98 AA-UNet 95.08 93.26 90.01 95.34 97.62 89.26 注:加黑数值表示该列最好的结果。
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表 3 泸定区域精度评价
Table 3. Accuracy evaluation of Luding region
数据集 模型 mIoU/% F1 准确率/ % 召回率/ % 1 CNN 48.32 58.14 56.21 60.33 ResUNet++ 53.15 63.28 62.40 64.18 U-Net 51.74 61.47 59.27 63.85 DeeplabV3++ 46.45 54.21 59.18 50.01 TSUBF-Net 55.86 65.92 66.33 65.50 AA-UNet 60.17 69.99 71.54 68.50 2 CNN 50.15 61.85 59.45 64.40 ResUNet++ 53.90 65.30 64.55 66.08 U-Net 50.72 62.40 60.17 64.80 DeeplabV3++ 55.88 68.05 65.16 71.21 TSUBF-Net 56.45 67.33 64.20 72.75 AA-UNet 57.69 68.39 68.68 68.11 3 CNN 51.80 64.95 60.10 70.50 ResUNet++ 54.85 66.95 64.80 69.20 U-Net 52.20 65.71 60.77 71.52 DeeplabV3++ 56.70 67.23 65.02 69.60 TSUBF-Net 53.30 65.02 62.18 68.15 AA-UNet 58.53 68.36 69.14 67.60 注:加黑数值表示该列最好的结果。
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表 4 泸定区域迁移学习的精度评价
Table 4. Accuracy evaluation of transfer learning in Luding region
数据集 模型 mIoU /% F1 准确率/ % 召回率/ % 1 CNN 59.25 71.03 70.12 71.95 ResUNet++ 68.40 78.91 80.05 77.80 U-Net 65.18 75.51 78.92 72.38 DeeplabV3+ 71.20 80.92 81.15 80.70 TSUBF-Net 73.55 82.47 84.33 81.65 AA-UNet 76.81 86.36 93.58 80.17 2 CNN 58.10 70.15 69.88 70.43 ResUNet++ 66.88 77.65 76.94 78.38 U-Net 63.17 74.19 73.57 74.82 DeeplabV3+ 62.82 74.06 72.50 75.69 TSUBF-Net 70.33 81.02 82.17 79.90 AA-UNet 72.42 82.86 88.09 78.22 3 CNN 58.95 71.20 70.50 71.91 ResUNet++ 67.50 78.20 79.10 77.32 U-Net 63.99 74.58 78.72 70.85 DeeplabV3+ 61.82 72.68 78.24 67.85 TSUBF-Net 71.80 82.00 80.66 83.40 AA-UNet 75.11 84.36 82.75 86.04 注:加黑数值表示该列最好的结果。
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表 5 地形因子在不同模型的滑坡识别结果
Table 5. Terrain factors in landslide identification results of different models
数据 模型 九寨沟区域 泸定区域 mIoU /% F1 mIoU /% F1 遥感影像 CNN 77.19 86.31 50.05 56.62 ResUNet++ 77.84 86.67 55.31 62.10 U-Net 85.30 92.12 59.30 60.91 DeeplabV3+ 86.35 92.68 62.58 60.62 TSUBF-Net 81.11 88.93 61.45 60.75 AA-UNet 88.61 93.34 69.20 69.20 遥感影像+地形因子 CNN 83.74 90.72 59.25 71.03 ResUNet++ 82.91 90.16 68.40 78.91 U-Net 86.15 92.60 65.18 75.51 DeeplabV3+ 87.30 93.54 71.20 80.92 TSUBF-Net 84.21 90.98 73.55 82.47 AA-UNet 90.01 95.34 76.81 86.36 注:加黑数值表示该列最好的结果。
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