Towards accurate mapping of loess waterworn gully by integrating google earth imagery and DEM using deep learning

IF 7.3 1区 农林科学 Q1 ENVIRONMENTAL SCIENCES
Rong Chen , Yi Zhou , Zetao Wang , Ying Li , Fan Li , Feng Yang
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引用次数: 0

Abstract

Accurate mapping of loess waterworn gully (LWG) is essential to further study gully erosion and geomorphological evolution for the Chinese Loess Plateau (CLP). Due to the vertical joint and collapsibility of loess, LWGs have the characteristics of zigzag and unique slope abruptness under synthetic action of hydraulic force and gravity. This forces existing LWG mapping methods to either focus on the improvement of mapping accuracy or center on the increase of mapping efficiency. However, simultaneously achieving accurate and efficient mapping of LWG is still in its infancy under complex topographic conditions. Here, we proposed a method that innovatively integrates the loess slope abruptness feature into an improved deep learning semantic segmentation framework for LWG mapping using 0.6 m Google imagery and 5 m DEM data. We selected four study areas representing typical loess landforms to test the performance of our method. The proposed method can achieve satisfactory mapping results, with the F1 score, mean Intersection-over-Union (mIoU), and overall accuracy of 90.5%, 85.3%, and 92.3%, respectively. In addition, the proposed model also showed significant accuracy improvement by inputting additional topographic information (especially the slope of slope). Compared with existing algorithms (Random forests, original DeepLabV3+, and Unet), the proposed approach in this study achieved a better accuracy-efficiency trade-off. Overall, the method can ensure high accuracy and efficiency of the LWG mapping for different loess landform types and can be extended to study various loess gully mapping and water and soil conservation.

利用深度学习实现谷歌地球图像和DEM的精确测绘
黄土水蚀沟壑区的精确填图是深入研究黄土高原沟壑区侵蚀与地貌演变的基础。由于黄土的垂直节理和湿陷性,在水力和重力的综合作用下,水工筑坝具有锯齿形和独特的陡度特征。这迫使现有的LWG制图方法要么关注于提高制图精度,要么以提高制图效率为中心。然而,在复杂的地形条件下,同时实现准确高效的LWG制图还处于起步阶段。本文提出了一种创新的方法,将黄土斜坡陡度特征整合到改进的深度学习语义分割框架中,使用0.6 m Google图像和5 m DEM数据进行LWG映射。选取了代表典型黄土地貌的4个研究区,对本文方法的性能进行了检验。该方法取得了满意的制图效果,F1分数、平均交叉-超联度(Intersection-over-Union, mIoU)和总体精度分别为90.5%、85.3%和92.3%。此外,通过输入额外的地形信息(尤其是坡度的坡度),所提模型的精度也得到了显著提高。与现有算法(Random forests,原始DeepLabV3+和Unet)相比,本文提出的方法实现了更好的精度和效率权衡。综上所述,该方法能够保证不同黄土地貌类型LWG制图的高精度和高效性,并可推广到各种黄土沟壑区制图和水土保持研究中。
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来源期刊
International Soil and Water Conservation Research
International Soil and Water Conservation Research Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
12.00
自引率
3.10%
发文量
171
审稿时长
49 days
期刊介绍: The International Soil and Water Conservation Research (ISWCR), the official journal of World Association of Soil and Water Conservation (WASWAC) http://www.waswac.org, is a multidisciplinary journal of soil and water conservation research, practice, policy, and perspectives. It aims to disseminate new knowledge and promote the practice of soil and water conservation. The scope of International Soil and Water Conservation Research includes research, strategies, and technologies for prediction, prevention, and protection of soil and water resources. It deals with identification, characterization, and modeling; dynamic monitoring and evaluation; assessment and management of conservation practice and creation and implementation of quality standards. Examples of appropriate topical areas include (but are not limited to): • Conservation models, tools, and technologies • Conservation agricultural • Soil health resources, indicators, assessment, and management • Land degradation • Sustainable development • Soil erosion and its control • Soil erosion processes • Water resources assessment and management • Watershed management • Soil erosion models • Literature review on topics related soil and water conservation research
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