Research on image segmentation effect based on denoising preprocessing

IF 1 4区计算机科学 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

Journal of Electronic Imaging Pub Date : 2024-06-01 DOI:10.1117/1.jei.33.3.033033

Lu Ronghui, Tzong-Jer Chen

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引用次数: 0

Abstract

Our study investigates the impact of denoising preprocessing on the accuracy of image segmentation. Specifically, images with Gaussian noise were segmented using the fuzzy c-means method (FCM), local binary fitting (LBF), the adaptive active contour model coupling local and global information (EVOL_LCV), and the U-Net semantic segmentation method. These methods were then quantitatively evaluated. Subsequently, various denoising techniques, such as mean, median, Gaussian, bilateral filtering, and feed-forward denoising convolutional neural network (DnCNN), were applied to the original images, and the segmentation was performed using the methods mentioned above, followed by another round of quantitative evaluations. The two quantitative evaluations revealed that the segmentation results were clearly enhanced after denoising. Specifically, the Dice similarity coefficient of the FCM segmentation improved by 4% to 44%, LBF improved by 16%, and EVOL_LCV presented limited changes. Additionally, the U-Net network trained on denoised images attained a segmentation improvement of over 5%. The accuracy of traditional segmentation and semantic segmentation of Gaussian noise images is improved effectively using DnCNN.

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基于去噪预处理的图像分割效果研究

我们的研究探讨了去噪预处理对图像分割准确性的影响。具体来说，我们使用模糊 c-means 法（FCM）、局部二元拟合法（LBF）、耦合局部和全局信息的自适应主动轮廓模型（EVOL_LCV）以及 U-Net 语义分割法对带有高斯噪声的图像进行了分割。然后对这些方法进行了定量评估。随后，对原始图像应用了各种去噪技术，如均值、中值、高斯、双边滤波和前馈去噪卷积神经网络（DnCNN），并使用上述方法进行了分割，然后进行了另一轮定量评估。两次定量评估结果显示，去噪后的分割效果明显提高。具体来说，FCM 分割的 Dice 相似性系数提高了 4% 至 44%，LBF 提高了 16%，EVOL_LCV 的变化有限。此外，在去噪图像上训练的 U-Net 网络的分割效果提高了 5%以上。使用 DnCNN 有效提高了高斯噪声图像的传统分割和语义分割的准确性。

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

Journal of Electronic Imaging 工程技术-成像科学与照相技术

CiteScore

1.70

自引率

27.30%

发文量

341

审稿时长

4.0 months

期刊介绍： The Journal of Electronic Imaging publishes peer-reviewed papers in all technology areas that make up the field of electronic imaging and are normally considered in the design, engineering, and applications of electronic imaging systems.