基于超像素引导学习的增强型无监督连体网络,用于异质遥感图像中的变化检测

IF 4.7 2区 地球科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Zhiyuan Ji;Xueqian Wang;Zhihao Wang;Gang Li
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引用次数: 0

摘要

本文探讨了异质遥感图像的变化检测(CD)问题。现有的基于深度学习的变化检测方法通常使用方形卷积感受野,但这种方法不能充分利用异构图像中的上下文和边界信息。为解决上述问题,我们提出了一种基于暹罗超像素的增强型无监督网络,用于异构遥感图像的 CD。我们新提出的方法创新性地将超像素与方形感受野结合起来,生成边界粘附感受野,与现有的仅使用常规方形感受野的方法相比,能更好地捕捉上下文信息。此外,我们还利用自适应超像素合并模块来防止超像素的过度分割,并加强了我们的方法在超像素大小方面的鲁棒性。基于四个真实数据集的实验证明,在异质遥感图像中,所提出的方法比其他常用的 CD 方法获得了更高的精度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Enhanced and Unsupervised Siamese Network With Superpixel-Guided Learning for Change Detection in Heterogeneous Remote Sensing Images
In this article, we consider the issue of change detection (CD) for heterogeneous remote sensing images. Existing deep learning-based methods for CD usually utilize square convolution receptive fields, which do not sufficiently exploit the contextual and boundary information in heterogeneous images. To address the aforementioned issue, we propose an enhanced and unsupervised Siamese superpixel-based network for CD in heterogeneous remote sensing images. Our newly proposed method innovatively combines superpixels with the square receptive fields to generate the boundary adherence receptive fields and better capture the contextual information than existing methods only with the regular square receptive fields. Furthermore, we utilize an adaptive superpixel merging module to prevent the oversegmentation of superpixels and strengthen the robustness of our method in terms of superpixel sizes. Experiments based on four real datasets demonstrate that the proposed method achieves higher accuracy than other commonly used CD methods in heterogeneous remote sensing images.
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来源期刊
CiteScore
9.30
自引率
10.90%
发文量
563
审稿时长
4.7 months
期刊介绍: The IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing addresses the growing field of applications in Earth observations and remote sensing, and also provides a venue for the rapidly expanding special issues that are being sponsored by the IEEE Geosciences and Remote Sensing Society. The journal draws upon the experience of the highly successful “IEEE Transactions on Geoscience and Remote Sensing” and provide a complementary medium for the wide range of topics in applied earth observations. The ‘Applications’ areas encompasses the societal benefit areas of the Global Earth Observations Systems of Systems (GEOSS) program. Through deliberations over two years, ministers from 50 countries agreed to identify nine areas where Earth observation could positively impact the quality of life and health of their respective countries. Some of these are areas not traditionally addressed in the IEEE context. These include biodiversity, health and climate. Yet it is the skill sets of IEEE members, in areas such as observations, communications, computers, signal processing, standards and ocean engineering, that form the technical underpinnings of GEOSS. Thus, the Journal attracts a broad range of interests that serves both present members in new ways and expands the IEEE visibility into new areas.
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