Guest Editorial: Special issue on intelligence technology for remote sensing image

IF 8.4 2区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Xiangtao Zheng, Benoit Vozel, Danfeng Hong
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引用次数: 0

Abstract

With the development of artificial intelligence, remote sensing scene interpretation task has attracted extensive attention, which mainly includes scene classification, target detection, hyperspectral classification, and multi-modal analysis. The remote sensing scene interpretation has effectively promoted the development of the Earth observation field. It was the intention for this Special Issue to serve as a platform for the publication of the most recent research concepts from remote sensing image.

To recognise remote sensing scenes, several methods have been proposed to represent the scene image. The first paper (Zhang et al.) proposes a lightweight privacy-preserving recognition framework which diffuses the error between the encryption block and the original block to adjacent blocks which makes the transmission of high-resolution images more secure and efficient. The second paper (Ning et al.) introduces a knowledge distillation network for aerial scene recognition, which produces consistent predictions by distilling the predictive distribution between different scales. With the development of scene recognition task, its branch scene retrieval task also emerges. In this regard, the third paper (Yuan et al.) shows how to efficiently optimise the average accuracy to improve remote sensing image retrieval. This approach enables a more flexible optimisation strategy by involving positive post-samples, which provides a new way to improve the retrieval performance.

To detect targets, a series of advanced methods have been developed to improve detection accuracy and efficiency. The fourth paper (Zhang et al.) proposes an intelligent anchor learning strategy for arbitrary orientation target detection. The fifth paper (Ma et al.) focuses on infrared image detection of small and weak targets and proposes an efficient deep learning method. The sixth paper (Zhou et al.) proposes a convolutional transformer method based on spectral-spatial sequence features for hyperspectral image change detection. With the maturity of target detection techniques, researchers have begun to focus on more complex challenges, namely anomaly detection. In this subfield, the seventh paper (Wang et al.) provides a new solution for semi-supervised hyperspectral anomaly detection. It maps the raw spectrum into the fractional Fourier domain, thereby enhancing the distinguishability between background and anomaly. Meanwhile, the eighth paper (Zhao et al.) utilises a memory-enhanced self-encoder to improve the separation of anomaly samples from background in hyperspectral images. These studies demonstrate the rapid development in the target detection field, such as change detection and anomaly detection.

To classify hyperspectral images, the ninth paper (Liao et al.) shows how to integrate the features of convolutional neural networks and transformers to enhance the performance of hyperspectral image classification. This approach fully utilises the respective advantages of convolutional networks and transformers to provide a comprehensive solution for feature extraction of hyperspectral images. Furthermore, the tenth paper (Xie et al.) employs a transformer network that fuses semantic, spatial, and spectral features to show how the combination of multiple information types can improve the accuracy and robustness of classification. Meanwhile, the eleventh paper (Ran et al.) combines deep transformer modelling with small-sample learning to tackle the challenges in hyperspectral image classification, especially when the number of samples is limited. This approach effectively improves the generalisation ability of the classification model by making full use of the information in a small number of samples.

The multi-modal analysis provides increased capabilities for observing the Earth's surface and handling the challenging issues. The twelfth paper (Hong et al.) utilises multispectral remote sensing data and geographically weighted regression experiments to reveal the importance of green infrastructure layout for mitigating the urban heat island effect. The thirteenth paper (Zhang et al.) introduces a multi-task framework for precipitation prediction. It combines radar echo images and other auxiliary tasks, which improved the accuracy and efficiency of precipitation forecasting. Finally, the fourteenth paper (Zhang et al.) improves robot self-localisation and environment perception in dynamic environments by fusing visual and audio data. This fusion approach demonstrates excellent stability and reconstruction performance in a multi-robot collaborative scenario. These studies demonstrate the potential of multi-source data analytics in improving areas, such as environmental monitoring, prediction, and robot navigation.

We appreciate all the authors for their submissions and all the reviewers for their valuable reviews and comments. We hope that this Special Issue will inspire new outcomes for the research community in remote sensing scene interpretation.

National Natural Science Foundation of China, Grant/Award Number: 62271484.

特邀编辑:遥感图像智能技术特刊
随着人工智能的发展,遥感场景解译任务受到了广泛的关注,主要包括场景分类、目标检测、高光谱分类和多模态分析。遥感场景解译有效地促进了对地观测领域的发展。本期特刊的目的是作为一个平台,发表遥感影像的最新研究概念。为了识别遥感场景,提出了几种场景图像表示方法。第一篇论文(Zhang et al.)提出了一种轻量级的隐私保护识别框架,该框架将加密块与原始块之间的错误扩散到相邻块,从而使高分辨率图像的传输更加安全高效。第二篇论文(Ning et al.)介绍了一种用于航景识别的知识蒸馏网络,该网络通过提取不同尺度之间的预测分布来产生一致的预测。随着场景识别任务的发展,其分支场景检索任务也应运而生。在这方面,第三篇论文(Yuan et al.)展示了如何有效地优化平均精度以提高遥感图像检索。该方法通过引入阳性后样本实现了更灵活的优化策略,为提高检索性能提供了一种新的方法。为了检测目标,人们开发了一系列先进的方法来提高检测精度和效率。第四篇论文(Zhang等人)提出了一种用于任意方向目标检测的智能锚点学习策略。第五篇论文(Ma et al.)专注于红外图像弱小目标的检测,提出了一种高效的深度学习方法。第六篇论文(Zhou et al.)提出了一种基于光谱空间序列特征的卷积变换方法,用于高光谱图像变化检测。随着目标检测技术的成熟,研究人员开始关注更复杂的挑战,即异常检测。在该子领域,第七篇论文(Wang et al.)为半监督高光谱异常检测提供了一种新的解决方案。它将原始光谱映射到分数傅里叶域,从而增强背景和异常之间的可区分性。同时,第八篇论文(Zhao et al.)利用记忆增强的自编码器来提高高光谱图像中异常样本与背景的分离。这些研究表明了变化检测和异常检测等目标检测领域的快速发展。为了对高光谱图像进行分类,第九篇论文(Liao et al.)展示了如何结合卷积神经网络和变压器的特点来提高高光谱图像的分类性能。该方法充分利用了卷积网络和变压器各自的优势,为高光谱图像的特征提取提供了全面的解决方案。此外,第十篇论文(Xie et al.)采用融合语义、空间和频谱特征的变压器网络,展示了多种信息类型的组合如何提高分类的准确性和鲁棒性。同时,第11篇论文(Ran et al.)将深度变压器建模与小样本学习相结合,解决了高光谱图像分类中的挑战,特别是在样本数量有限的情况下。该方法充分利用了少量样本中的信息,有效地提高了分类模型的泛化能力。多模态分析增加了观测地球表面和处理具有挑战性问题的能力。第12篇论文(Hong et al.)利用多光谱遥感数据和地理加权回归实验揭示了绿色基础设施布局对缓解城市热岛效应的重要性。第13篇论文(Zhang et al.)介绍了降水预测的多任务框架。将雷达回波图像与其他辅助任务相结合,提高了降水预报的精度和效率。最后,第十四篇论文(Zhang et al.)通过融合视觉和音频数据来改进机器人在动态环境中的自定位和环境感知。该融合方法在多机器人协同场景下具有良好的稳定性和重构性能。这些研究证明了多源数据分析在改善环境监测、预测和机器人导航等领域的潜力。我们感谢所有作者的投稿和所有审稿人的宝贵评论和意见。 我们希望这期特刊能够激发研究界在遥感场景解译方面的新成果。国家自然科学基金项目,资助/奖励号:62271484。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CAAI Transactions on Intelligence Technology
CAAI Transactions on Intelligence Technology COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-
CiteScore
11.00
自引率
3.90%
发文量
134
审稿时长
35 weeks
期刊介绍: CAAI Transactions on Intelligence Technology is a leading venue for original research on the theoretical and experimental aspects of artificial intelligence technology. We are a fully open access journal co-published by the Institution of Engineering and Technology (IET) and the Chinese Association for Artificial Intelligence (CAAI) providing research which is openly accessible to read and share worldwide.
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