利用多尺度地理加权回归分析数字高程模型高程误差分布的空间背景

IF 3.7 4区 地球科学 Q2 REMOTE SENSING
Zuleide Ferreira, Ana Cristina Costa, Pedro Cabral
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引用次数: 0

摘要

由于在一些地区难以获得准确的高程数据,许多免费的数字高程模型(DEM)在世界范围内得到了越来越多的使用,这强调了研究其精度和可能影响其不确定性的因素的必要性。我们对乌拉圭(巴西)水文区域的Topodata DEM进行了精度分析,假设其垂直精度可能与地形特征有关。采用多尺度地理加权回归(MGWR)研究了地形特征对局部高程误差影响的空间尺度。MGWR优于普通最小二乘(OLS)和地理加权回归(GWR)。MGWR结果还表明,坡向、曲率和人工面积在比高程小得多的尺度上起作用,并且在高程正误差较大的地区具有更大的影响。该模型解释了研究区Topodata DEM高程误差总变化的41%左右。我们的研究结果丰富了对影响Topodata DEM精度的全球和局部过程的理解,并揭示了局部地形特征在有效的DEM产品开发中的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analysing the spatial context of the altimetric error pattern of a digital elevation model using multiscale geographically weighted regression
Many freely available Digital Elevation Models (DEM) have increasingly been used worldwide due to the difficulty in acquiring accurate elevation data in some regions, emphasizing the need to investigate their accuracy and the factors that may influence their uncertainties. We performed an accuracy analysis of the Topodata DEM in the hydrographic region of Uruguay (Brazil) assuming that its vertical accuracy may be related to terrain characteristics. Multiscale Geographically Weighted Regression (MGWR) was applied to investigate the spatial scales over which terrain characteristics affect local variations in altimetric errors. MGWR outperformed Ordinary Least Squares (OLS) and Geographically Weighted Regression (GWR). MGWR results also showed that aspect, curvature, and artificial areas operate at much smaller scales than elevation and have a higher influence in areas with high positive altimetric errors. The model explains about 41% of the total variation of the altimetric error of the Topodata DEM in the study area. Our findings enrich the understanding of the global and local processes affecting the accuracy of the Topodata DEM and shed light on the importance of local terrain characteristics in effective DEM product development.
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来源期刊
CiteScore
7.00
自引率
2.50%
发文量
51
审稿时长
>12 weeks
期刊介绍: European Journal of Remote Sensing publishes research papers and review articles related to the use of remote sensing technologies. The Journal welcomes submissions on all applications related to the use of active or passive remote sensing to terrestrial, oceanic, and atmospheric environments. The most common thematic areas covered by the Journal include: -land use/land cover -geology, earth and geoscience -agriculture and forestry -geography and landscape -ecology and environmental science -support to land management -hydrology and water resources -atmosphere and meteorology -oceanography -new sensor systems, missions and software/algorithms -pre processing/calibration -classifications -time series/change analysis -data integration/merging/fusion -image processing and analysis -modelling European Journal of Remote Sensing is a fully open access journal. This means all submitted articles will, if accepted, be available for anyone to read anywhere, at any time, immediately on publication. There are no charges for submission to this journal.
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