NFANet:一种高分辨率遥感图像弱监督水提取的新方法

IF 7.5 1区 地球科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Ming Lu;Leyuan Fang;Muxing Li;Bob Zhang;Yi Zhang;Pedram Ghamisi
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引用次数: 14

摘要

使用深度学习进行水提取需要精确的像素级标签。然而,在像素级对高分辨率遥感图像进行标记是非常困难的。为此,我们研究了如何利用点标签提取水体,并提出了一种新的方法——邻域特征聚合网络(NFANet)。与像素级标签相比,点标签更容易获得,但会丢失很多信息。本文利用局部水体相邻像元之间的相似性,提出了一种相邻采样器对遥感图像进行重采样。然后,将采样后的图像发送到网络进行特征聚合。此外,我们使用改进的递归训练算法进一步提高了提取精度,使水体边界更加自然。此外,我们的方法利用邻近特征而不是全局或局部特征来学习更具代表性的特征。实验结果表明,所提出的NFANet方法不仅优于其他弱监督方法,而且可以获得与当前最先进方法相似的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
NFANet: A Novel Method for Weakly Supervised Water Extraction From High-Resolution Remote-Sensing Imagery
The use of deep learning for water extraction requires precise pixel-level labels. However, it is very difficult to label high-resolution remote-sensing images at the pixel level. Therefore, we study how to utilize point labels to extract water bodies and propose a novel method called the neighbor feature aggregation network (NFANet). Compared with pixel-level labels, point labels are much easier to obtain, but they will lose much information. In this article, we take advantage of the similarity between the adjacent pixels of a local water body, and propose a neighbor sampler to resample remote-sensing images. Then, the sampled images are sent to the network for feature aggregation. In addition, we use an improved recursive training algorithm to further improve the extraction accuracy, making the water boundary more natural. Furthermore, our method utilizes neighboring features instead of global or local features to learn more representative features. The experimental results show that the proposed NFANet method not only outperforms other studied weakly supervised approaches, but also obtains similar results as the state-of-the-art ones.
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来源期刊
IEEE Transactions on Geoscience and Remote Sensing
IEEE Transactions on Geoscience and Remote Sensing 工程技术-地球化学与地球物理
CiteScore
11.50
自引率
28.00%
发文量
1912
审稿时长
4.0 months
期刊介绍: IEEE Transactions on Geoscience and Remote Sensing (TGRS) is a monthly publication that focuses on the theory, concepts, and techniques of science and engineering as applied to sensing the land, oceans, atmosphere, and space; and the processing, interpretation, and dissemination of this information.
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