数字高程模型分辨率对测绘区域滑坡发展敏感性的影响

IF 0.6 Q4 ENGINEERING, GEOLOGICAL
Van-Binh Duong, I. Fomenko, Duc-Tuan Ta, Trung K. Nguyen, O. Zerkal, D. Gorobtsov, Hong-Dang Vu
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引用次数: 1

摘要

引用链接:Van B. Duong, Fomenko I.K, Duc T. Ta, Trung K. Nguyen, Zerkal O.V, Gorobtsov d.n., Hong D. Vu。数字高程模型分辨率对测绘区域滑坡发展敏感性的影响。托木斯克理工大学公报。岩土工程Аssets, 2023,第334卷,第2期。8日,рр。164 - 181。俄文。的相关性。山体滑坡是世界上最危险的自然灾害之一,造成重大经济损失和人员死亡。哈克大学的研究(2019年)基于128个国家的数据,报告称,在20年(1995年至2014年)期间,发生了3876次山体滑坡,造成163658人死亡,11689人受伤。除地震引发的事件外,2004年至2016年发生的致命滑坡总数为4862起,其中大多数(75%)发生在亚洲。在越南,特别是在北部山区,山体滑坡经常造成相当大的生命和财产损失。对滑坡灾害进行系统评估是越南防灾战略的重要组成部分。本研究的主要目的是利用4种数字高程模型分辨率(10、30、40和60 m)和9个滑坡成因因子:坡向、高程、坡度、与道路的距离、与断层的距离、与排水的距离、月平均降水量、土地利用和风化层,对越南老菜省巴扎特地区的滑坡易损性进行评估。以越南老蔡省巴特夏地区滑坡易感性为研究对象。方法:确定性因子法、分形法。结果。分析表明,研究区滑坡分布与滑坡成因之间存在显著的统计学关系。因此,根据其对滑坡过程的易感性,将该地区划分为五个区域:极低、低、中、高和极高。根据数字高程模型空间分辨率的不同,极低滑坡易感性区小于研究区面积的10%,而极高滑坡易感性区在14.95 ~ 18.32%之间变化。对接收机工作特性曲线的分析表明,所有模型与数字高程模型分辨率无关,均具有良好的预测效率,接收机工作特性曲线下面积超过70%。此外,接收机的工作特性和分形分析结果表明,数字高程模型空间分辨率为60 m的模型精度最高。这一重要结论可以解释为,滑坡易感性评价结果的准确性不仅取决于数字高程模型分辨率,还取决于数字高程模型分辨率与研究区滑坡平均面积的比值。这一结论证明了在滑坡清查图上描绘滑坡位置及其详细形态特征的必要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
INFLUENCE OF DIGITAL ELEVATION MODEL RESOLUTION ON MAPPING TERRITORY SUSCEPTIBILITY TO LANDSLIDE DEVELOPMENT
Link for citation: Van B. Duong, Fomenko I.K., Duc T. Ta, Trung K. Nguyen, Zerkal O.V., Gorobtsov D.N., Hong D. Vu. Influence of digital elevation model resolution on mapping territory susceptibility to landslide development. Bulletin of the Tomsk Polytechnic University. Geo Аssets Engineering, 2023, vol. 334, no. 8, рр. 164-181. In Rus. The relevance. Landslides are one of the most hazardous natural disasters in the world, causing significant economic damage and human deaths. For 20 years (1995–2014), 3876 landslides killed 163658 people and injured 11689 people, as reported by the U. Haque study (2019), based on the data from 128 countries. Excluding events triggered by earthquakes, the total number of fatal landslides from 2004 to 2016 was 4862, and most landslides (75 %) occurred in Asia. In Vietnam, particularly in the northern mountainous regions, landslides frequently caused considerable losses of life and property. The systematic evaluation of landslide hazards is a crucial component of Vietnam's disaster prevention strategy. The main aim of this study is to assess the landslide susceptibility of the Batxat district, Laocai province (Vietnam), using four digital elevation model resolutions (10, 30, 40, and 60 m) and nine landslide causative factors: slope aspect, elevation, slope, distance to roads, distance to faults, distance to drainage, average monthly precipitation, land use, and weathering crust. Object of the study is the landslide susceptibility in Batxat district, Laocai province, Vietnam. Methods: Certainty Factor method, fractal method. Results. The performed analyses indicated a statistically significant relationship between the distribution of landslides and the landslide causative factors in the study area. As a result, the territory was divided into five zones according to its susceptibility to the landslide process: very low, low, moderate, high, and very high. The very low landslide susceptibility zone is less than 10 % of the study area, while the very high susceptibility zone varies from 14,95 to 18,32 %, depending on the digital elevation model spatial resolution. Analysis of the Receiver Operating Characteristics curve revealed that all models, independent of digital elevation model resolution, have good prediction efficiency, with the area under the receiver operating characteristic curve over 70 %. In addition, the Receiver operating characteristic and fractal analysis results indicated that the model with a digital elevation model spatial resolution of 60 m has the highest accuracy. This significant conclusion may be explained by the fact that the accuracy of the landslide susceptibility assessment result is dependent not only on the digital elevation model resolution but also on the ratio of the digital elevation model resolution and the average area of landslides in the study area. This conclusion proves that it is necessary to depict landslide locations and their detailed morphological characteristics on the landslide inventory maps.
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