高分辨率卫星图像的几何处理:三维制图需求的质量评估

E. M. Farella, F. Remondino, C. Cahalane, R. Qin, A. M. Loghin, M. Di Tullio, N. Haala, J. Mills
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引用次数: 0

摘要

摘要近几十年来,地理空间领域受益于传感器、方法和处理工具的技术进步,从而扩展了地图应用程序的能力。机载技术(激光雷达和航空摄影测量)通常提供用于此目的的大部分数据。然而,尽管这些技术具有相关的准确性和机载数据的高空间分辨率,但由于飞行成本和物流的原因,更新并不足够定期。随着本世纪初超高分辨率(VHR)光学卫星图像的出现,填补这一信息空白的新可能性出现了。除了具有成本效益的数据集及其亚米级几何分辨率的高时间分辨率外,天气覆盖为绘制偏远地区、多时相分析、更新数据集和灾害管理提供了前所未有的机会。由于所有这些原因,VHR卫星图像显然是国家测绘和地籍机构(NMCAs)的一项相关研究。这项工作由欧洲特别提款权支持,总结了在不同景观上进行的一系列实验分析,以探索VHR图像在大规模制图中的潜力。
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GEOMETRIC PROCESSING OF VERY HIGH-RESOLUTION SATELLITE IMAGERY: QUALITY ASSESSMENT FOR 3D MAPPING NEEDS
Abstract. In recent decades, the geospatial domain has benefitted from technological advances in sensors, methodologies, and processing tools to expand capabilities in mapping applications. Airborne techniques (LiDAR and aerial photogrammetry) generally provide most of the data used for this purpose. However, despite the relevant accuracy of these technologies and the high spatial resolution of airborne data, updates are not sufficiently regular due to significant flight costs and logistics. New possibilities to fill this information gap have emerged with the advent of Very High Resolution (VHR) optical satellite images in the early 2000s. In addition to the high temporal resolution of the cost-effective datasets and their sub-meter geometric resolutions, the synoptic coverage is an unprecedented opportunity for mapping remote areas, multi-temporal analyses, updating datasets and disaster management. For all these reasons, VHR satellite imagery is clearly a relevant study for National Mapping and Cadastral Agencies (NMCAs). This work, supported by EuroSDR, summarises a series of experimental analyses carried out over diverse landscapes to explore the potential of VHR imagery for large-scale mapping.
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CiteScore
1.70
自引率
0.00%
发文量
949
审稿时长
16 weeks
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