Min Huang;Shuaili Luo;Shuaihui Wang;Jinghang Guo;Jingyang Wang
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引用次数: 0
摘要
合成孔径雷达(SAR)因其全天候的特点,被广泛应用于军事防御和资源勘探等多个领域。然而,合成孔径雷达图像的信息提取受到斑点噪声的严重影响,因此去噪至关重要。本文提出了一种混合变压器-卷积神经网络(CNN)网络,这是一种结合了变压器和 CNN 的混合去噪网络。该网络的三个核心设计确保其适用于 SAR 图像去噪:1) 该网络集成了基于变压器的编码器和基于 CNN 的解码器,可捕捉 SAR 图像固有的局部和全局依赖性,从而提高去噪效果。2) 片段嵌入块增强了卷积神经网络对不同尺度特征的感知能力。3) 深度可分离卷积融合到变换器块中,进一步提高了网络捕捉空间信息的能力,同时降低了计算复杂度。实验结果表明,所提出的算法在模拟和真实合成孔径雷达图像中都表现出卓越的去噪性能。与其他去噪算法相比,该方法能有效去除斑点噪声,同时保留图像中的纹理信息。
HTCNet: Hybrid Transformer-CNN for SAR Image Denoising
Synthetic aperture radar (SAR) is extensively utilized in diverse fields, including military defense and resource exploration, due to its all-day, all-weather characteristics. However, the extraction of information from SAR images is severely affected by speckle noise, making denoising crucial. This article proposes a hybrid transformer-convolutional neural networks (CNNs) network, a hybrid denoising network that combines transformer and CNN. The three core designs of the network ensure its suitability for SAR image denoising: 1) The network integrates a transformer-based encoder with a CNN-based decoder, capturing both local and global dependencies inherent in SAR images, thereby enhancing the effectiveness of noise removal. 2) Patch embedding blocks enhance the convolutional neural network's perception of features at different scales. 3) Depthwise separable convolutions are fused into the Transformer block to further improve the network's ability to capture spatial information while reducing computational complexity. The proposed algorithm demonstrates excellent denoising performance in both simulated and real SAR images, as evidenced by experimental results. Compared to other denoising algorithms, this method efficiently removes speckle noise while preserving the texture information within the images.
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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