基于图像的地图投影中角畸变传统微分度量导数逼近

IF 2.6 3区 地球科学 Q1 GEOGRAPHY Cartography and Geographic Information Science Pub Date : 2022-11-15 DOI:10.1080/15230406.2022.2127123
Jin Yan, Tiansheng Xu, Jing Gao, Ni Li, Guanghong Gong
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引用次数: 0

摘要

地图投影是用来描绘地理特征的成像过程。我们采用传统的差分度量,利用地图投影的固有图像特性,建立了一种基于图像的差分度量来评估地图投影的失真,获得了一种有效、实用、相对准确的度量。我们使用二元多项式函数来近似映射投影的正、逆公式。然后,利用基于多项式函数的近似正演函数的偏导数方便地计算所提出的度量,同时避免了复杂的微分计算。此外,多重采样和图像滤波减轻了成像噪声的影响,实现了较高的计算精度。实验使用了NASA的g.p or投影仪绘图软件,从200多个地图投影中生成图像。由于使用了绘图软件,不需要地图投影的显式方程。然后,通过Julia编程语言的实现,使用建议的度量对这些映像进行评估。结果表明,该度量避免了大圆弧度量的缺点,与传统差分度量相比误差较小(平均误差1.12°),一致性较高(平均误差0.999°)。虽然存在误差,但实验结果表明,基于图像的小比例尺地图投影失真评价方法具有较高的可行性和可用性。
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Image-based approximation of derivatives of traditional differential metrics of angular distortion in map projections
ABSTRACT Map projections are imaging procedures used to depict geographic features. We adopt the traditional differential metric and exploit the intrinsic image properties of map projections to establish an image-based differential metric for evaluating distortions in map projections, obtaining an effective, practical, and relatively accurate metric. We use bivariate polynomial functions to approximate the forward and inverse formulae of map projections. Thereafter, the proposed metric is conveniently calculated using the partial derivatives of the approximate forward functions based on polynomial functions, while complicated differential calculations are avoided. Moreover, multiple sampling and image filters mitigate the influence of imaging noise and achieve a high computation precision. Experiments were conducted using the NASA G.Projector mapping software to generate images from more than 200 map projections. Explicit equations of map projections were not required owing to the use of the mapping software. These images were then evaluated using the proposed metric through an implementation in the Julia programming language. The corresponding results confirmed that the proposed metric avoided the drawbacks of the great circle arc metric and provided considerably low errors (1.12° on average) and high consistency (0.999 on average) with respect to the traditional differential metric. Although there were errors, experimental results indicated that feasibility and high usability were achieved by the image-based method for evaluating distortions in small-scale map projections.
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来源期刊
CiteScore
5.20
自引率
20.00%
发文量
23
期刊介绍: Cartography and Geographic Information Science (CaGIS) is the official publication of the Cartography and Geographic Information Society (CaGIS), a member organization of the American Congress on Surveying and Mapping (ACSM). The Cartography and Geographic Information Society supports research, education, and practices that improve the understanding, creation, analysis, and use of maps and geographic information. The society serves as a forum for the exchange of original concepts, techniques, approaches, and experiences by those who design, implement, and use geospatial technologies through the publication of authoritative articles and international papers.
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