塞尔维亚共和国境内数字地形模型fabdem垂直精度的估计

22nd SGEM International Multidisciplinary Scientific GeoConference Proceedings 2022, Informatics, Geoinformatics and Remote Sensing Pub Date : 2022-11-15 DOI:10.5593/sgem2022/2.1/s09.25

S. Grekulović, O. Odalović, M. T. Drakul, Dušan Petković

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引用次数: 0

摘要

2004年，塞尔维亚建立了一个数字地形模型(DTM)。它是在1:25 000比例尺的地形图上对等值线进行矢量化得到的。塞尔维亚数字模型的分辨率为30 m，垂直精度为10 m。从2021年12月起，全球模型FABDEM(森林和建筑去除哥白尼DEM)向公众开放。它是基于哥白尼GLO30模型的数据创建的，因此关于森林和建筑物的数据被删除了。全球模式的重要特点是水平分辨率为30 m，垂直精度小于5 m。本文旨在评估全球FABDEM模型的垂直精度，并分析塞尔维亚共和国境内全球FABDEM与DTM的差异。通过将FABDEM和DTM的高度与塞尔维亚(GSS)重力测量的独立点集高度进行比较，对两种模型的垂直精度和分析进行了评估。GSS点的高度使用经典大地测量方法确定，它们在塞尔维亚共和国境内分布相对均匀。本文对上述比较作了简要说明。将地面高度与从DTMs得到的高度进行比较的统计分析结果显示，两个数据集之间存在微小差异。

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ESTIMATION OF VERTICAL ACCURACY OF DIGITAL TERRAIN MODEL FABDEM ON THE TERRITORY OF THE REPUBLIC OF SERBIA

In 2004, a digital terrain model (DTM) was created in Serbia. It was obtained by vectorizing isohypses on topographic maps with a scale of 1: 25000. The resolution of the digital model of Serbia is 30 m, and the vertical accuracy, as the authors claim, is 10 m. From December 2021, the global model FABDEM (Forest And Buildings removed Copernicus DEM) is available to the public. It was created based on the data of the Copernicus GLO30 model so that data on forests and buildings were removed from it. Important features of the global model are its horizontal resolution of 30 m and vertical accuracy of less than 5 m. This paper aims to assess the vertical accuracy of the global FABDEM model and analyze the differences between the global FABDEM and DTM in the territory of the Republic of Serbia. Vertical accuracy and analysis of the two models were assessed by comparing the heights derived from FABDEM and DTM with the heights of the independent set of points of the gravimetric survey of Serbia (GSS). The heights of the GSS points were determined using classical geodetic methods, and they are relatively uniformly distributed on the territory of the Republic of Serbia. A short description of mentioned comparison is presented in this paper. Statistical analysis results that compare terrestrial heights with heights derived from DTMs show minor differences between the two data sets.

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22nd SGEM International Multidisciplinary Scientific GeoConference Proceedings 2022, Informatics, Geoinformatics and Remote Sensing

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