基于Google Earth引擎中所有可用Landsat 8和Sentinel-2图像的多因素加权改进清晰视图合成方法

IF 0.4 Q2 Engineering
Shili Meng, Yong Pang, Chengquan Huang, Zengyuan Li
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引用次数: 0

摘要

越来越多的免费获取遥感数据对改进全球监测研究至关重要。多源图像组合是克服与单传感器数据源相关的主要限制的一种常用方法,单传感器数据源不能提供足够的观测数据,以填补因云污染、阴影和其他大气影响而产生的数据空白。特别是,图像合成通常用于在大面积上生成清晰的视图图像。例如,提出了基于像素级质量规则的最佳可用像素(BAP)方法来构建清晰的视图和空间连续的复合材料。对于观测值较差的位置,该方法搜索其他日期的观测值,用得分最高的观测值代替污染的观测值。然而,这可能导致沿填充区域边缘人为地产生较大的不连续,这通常是由所考虑的观测值之间的巨大物候差异造成的。为了解决这个问题,我们开发了一种多因素加权(MFW)方法来构建清晰的复合材料,与使用BAP方法生成的复合材料相比,该方法具有更高的空间连续性和辐射一致性。对中国不同气候带的4个研究点的评价表明,与BAP方法相比,MFW方法生成的复合材料与参考图像的一致性更高。MFW复合材料与参考物的光谱一致性(R = 0.78 ~ 0.95)普遍高于BAP复合材料与参考物的光谱一致性(R = 0.65 ~ 0.93)。这些结果表明,所提出的MFW方法可以为大规模应用构建清晰,无缝和辐射一致性的图像复合材料提供有前途的策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Multi-factor Weighting Method for Improved Clear View Compositing using All Available Landsat 8 and Sentinel-2 Images in Google Earth Engine
The increasing availability of freely accessible remote sensing data has been crucial for improved global monitoring studies. Multisource image combination is a common approach for overcoming a major limitation associated with single-sensor data sources, which cannot provide adequate observations to fill data gaps arising from cloud contamination, shadows, and other atmospheric effects. In particular, image compositing is often used to generate clear view images over a large area. For example, the best available pixel (BAP) method has been proposed to construct clear view and spatially contiguous composites based on pixel-level quality rules. For any location with a bad observation, this method searches observations acquired in other dates and uses the one with the highest score to replace the contaminated observation. This, however, can lead to artificially large discontinuities along the edge of a filled area, which is typically caused by large phenological differences among the observations considered. To mitigate this issue, we developed a multifactor weighting (MFW) method for constructing clear view composites with a higher level of spatial continuity and radiometric consistency than those produced using the BAP method. Assessments over 4 study sites selected from different climate zones in China demonstrated that the composites produced using the MFW method were more consistent with reference images than those generated using the BAP method. Spectral agreements between MFW composites and the reference ( R = 0.78 to 0.95) were generally higher than the agreements between BAP composites and the reference ( R = 0.65 to 0.93). These results demonstrated that the proposed MFW method can provide a promising strategy for constructing clear view, seamless, and radiometrically consistent image composites for large-scale applications.
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