SCECNet：用于遥感场景分类的自校正特征增强融合网络

IF 2.7 4区地球科学 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Earth Science Informatics Pub Date : 2024-07-13 DOI:10.1007/s12145-024-01405-4

Xiangju Liu, Wenyan Wu, Zhenshan Hu, Yuan Sun

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引用次数: 0

摘要

遥感图像在目标尺度和复杂背景方面表现出显著的差异，同时在类别内也存在明显的差异，而在类别之间则有很高的相似性。这些特点给遥感场景分类任务带来了特殊的挑战。针对这些问题，本文提出了一种高效的系统架构--自校正特征增强融合网络（SCECNet），旨在提高场景图像处理能力。首先，采用基于 ResNet50 的特征金字塔网络（FPN）作为特征提取的骨干，有助于减轻小目标的特征损失。其次，设计了一种新颖的轻量级通道关注机制，以减少不同层级特征之间的差异，同时抑制无关信息。接着，构建了一个自校正特征融合模块（SCFF），通过自适应加权进一步强调复杂环境中的主要目标。最后，分类器执行最终的场景分类。此外，还构建了一个区域数据集 AHNR-18，以验证 SCECNet 的泛化能力，并对现有数据集进行补充。在两个基准数据集上的实验表明，我们的方法优于现有的几种方法。

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SCECNet: self-correction feature enhancement fusion network for remote sensing scene classification

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SCECNet: self-correction feature enhancement fusion network for remote sensing scene classification

Remote sensing images exhibit significant variations in target scale and complex backgrounds, as well as distinct differences within classes and high similarities between classes. These characteristics present particular challenges for remote sensing scene classification tasks. To address these issues, this paper proposes an efficient system architecture, the self-correction feature enhancement fusion network (SCECNet), designed to improve scene image processing capabilities. First, a feature pyramid network (FPN) based on ResNet50 is employed as the backbone for feature extraction, which helps alleviate feature loss for small targets. Second, a novel lightweight channel attention mechanism is designed to reduce the differences between features from different layers while suppressing irrelevant information. Next, a self-correction feature fusion module (SCFF) is constructed to further emphasise the main targets in complex environments through adaptive weighting. Finally, the classifier performs the final scene classification. Furthermore, a regional dataset, AHNR-18, is constructed to validate the generalisation capability of SCECNet and supplement existing datasets. Experiments on two benchmark datasets show that our method outperforms several existing methods.

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来源期刊

Earth Science Informatics COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-GEOSCIENCES, MULTIDISCIPLINARY

CiteScore

4.60

自引率

3.60%

发文量

157

审稿时长

4.3 months

期刊介绍： The Earth Science Informatics [ESIN] journal aims at rapid publication of high-quality, current, cutting-edge, and provocative scientific work in the area of Earth Science Informatics as it relates to Earth systems science and space science. This includes articles on the application of formal and computational methods, computational Earth science, spatial and temporal analyses, and all aspects of computer applications to the acquisition, storage, processing, interchange, and visualization of data and information about the materials, properties, processes, features, and phenomena that occur at all scales and locations in the Earth system’s five components (atmosphere, hydrosphere, geosphere, biosphere, cryosphere) and in space (see "About this journal" for more detail). The quarterly journal publishes research, methodology, and software articles, as well as editorials, comments, and book and software reviews. Review articles of relevant findings, topics, and methodologies are also considered.