基于 BCEL1-CBAM-INGAN 的侧扫声纳海底沉积物图像数据集增强方法。

IF 2.7 Q3 IMAGING SCIENCE & PHOTOGRAPHIC TECHNOLOGY Journal of Imaging Pub Date : 2024-09-20 DOI:10.3390/jimaging10090233
Haixing Xia, Yang Cui, Shaohua Jin, Gang Bian, Wei Zhang, Chengyang Peng
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引用次数: 0

摘要

本文提出了一种基于 CBAM-BCEL1-INGAN 的侧扫声纳海底沉积物图像样本增强方法,旨在解决数据集获取和标注困难以及数据样本多样性和数量不足的问题。首先,在INGAN 生成器的残差块中集成了卷积块注意模块(CBAM),以加强对特定属性的学习,提高生成图像的质量。其次,在鉴别器中引入了 BCEL1 损失函数(结合了二元交叉熵和 L1 损失函数),使其既能关注全局图像的一致性,又能进行更精细的区分,以获得更好的生成结果。最后,将增强样本输入 AlexNet 分类器,以验证其真实性。实验结果表明,该方法在生成粗砂、砾石和基岩图像时表现出色,这体现在弗雷谢特起始距离(FID)和起始分数(IS)的显著提高上。CBAM 和 BCEL1 损失函数的引入显著提高了生成图像的质量和细节。此外,使用 AlexNet 分类器进行的分类实验表明,仅使用 INGAN 生成的基岩图像的识别率为 90.5%,而使用我们的方法增强的图像的识别率为 97.3%,提高了 6.8%。此外,在训练集中加入使用本文方法增强的图像后,基岩类型矩阵的分类准确率提高了 5.2%,比简单方法放大的准确率高出 2.7%。这验证了我们的方法在生成海底沉积物图像任务中的有效性,部分缓解了侧扫声纳海底沉积物图像数据稀缺的问题。
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Method for Augmenting Side-Scan Sonar Seafloor Sediment Image Dataset Based on BCEL1-CBAM-INGAN.

In this paper, a method for augmenting samples of side-scan sonar seafloor sediment images based on CBAM-BCEL1-INGAN is proposed, aiming to address the difficulties in acquiring and labeling datasets, as well as the insufficient diversity and quantity of data samples. Firstly, a Convolutional Block Attention Module (CBAM) is integrated into the residual blocks of the INGAN generator to enhance the learning of specific attributes and improve the quality of the generated images. Secondly, a BCEL1 loss function (combining binary cross-entropy and L1 loss functions) is introduced into the discriminator, enabling it to focus on both global image consistency and finer distinctions for better generation results. Finally, augmented samples are input into an AlexNet classifier to verify their authenticity. Experimental results demonstrate the excellent performance of the method in generating images of coarse sand, gravel, and bedrock, as evidenced by significant improvements in the Frechet Inception Distance (FID) and Inception Score (IS). The introduction of the CBAM and BCEL1 loss function notably enhances the quality and details of the generated images. Moreover, classification experiments using the AlexNet classifier show an increase in the recognition rate from 90.5% using only INGAN-generated images of bedrock to 97.3% using images augmented using our method, marking a 6.8% improvement. Additionally, the classification accuracy of bedrock-type matrices is improved by 5.2% when images enhanced using the method presented in this paper are added to the training set, which is 2.7% higher than that of the simple method amplification. This validates the effectiveness of our method in the task of generating seafloor sediment images, partially alleviating the scarcity of side-scan sonar seafloor sediment image data.

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来源期刊
Journal of Imaging
Journal of Imaging Medicine-Radiology, Nuclear Medicine and Imaging
CiteScore
5.90
自引率
6.20%
发文量
303
审稿时长
7 weeks
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