Comparison of landslide detection based on different deep learning algorithms

2022 3rd International Conference on Geology, Mapping and Remote Sensing (ICGMRS) Pub Date : 2022-04-22 DOI:10.1109/ICGMRS55602.2022.9849267

W. Zhang, Zhiheng Liu, Hang Yu, Suiping Zhou, Haoran Jiang, Yuru Guo

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Abstract

Complex terrain and landscape, and mountains in China are prone to landslide disasters, and causing great potential danger to social stability, people's life and property safety, which makes landslide detection be a hot spot of research. With the advent of remote sensing images, landslide data are growing explosively, which provides conditions for landslide detection by applying deep learning algorithms. Firstly, to broaden the landslide identification method, we created a landslide dataset based on open-source Google Earth images. Secondly, we applied a series of object detection algorithms, such as YOLOV5, Faster RCNN, EfficientDet, SSD, and the improved YOLOV5 by embedding CBAM and Ghost module in the backbone, for detecting landslides from landslide dataset. Finally, we analyzed and compared the experimental results. The results show that the SSD algorithm detects landslides with an accuracy of 97.86%, and the training time for each epoch is only 57s. When there is only one landslide target in the image, SSD is advantageous; The improved YOLOV5 in this paper can identify multiple landslides well while reducing the number of model parameters when detecting images containing multiple landslides.

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基于不同深度学习算法的滑坡检测比较

中国地形地貌复杂，山区易发生滑坡灾害，对社会稳定、人民生命财产安全造成巨大的潜在危险，这使得滑坡探测成为研究热点。随着遥感影像的出现，滑坡数据呈爆炸式增长，这为应用深度学习算法进行滑坡检测提供了条件。首先，为了拓宽滑坡识别方法，我们基于开源Google Earth图像创建了滑坡数据集。其次，采用YOLOV5、Faster RCNN、EfficientDet、SSD等目标检测算法，以及在主干中嵌入CBAM和Ghost模块的改进YOLOV5算法，对滑坡数据集进行滑坡检测。最后，对实验结果进行了分析和比较。结果表明，SSD算法检测滑坡的准确率为97.86%，每个历元的训练时间仅为57s。当图像中只有一个滑坡目标时，SSD是有利的;本文改进的YOLOV5在检测包含多个滑坡的图像时，可以很好地识别多个滑坡，同时减少了模型参数的数量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 3rd International Conference on Geology, Mapping and Remote Sensing (ICGMRS)

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