Semantic segmentation algorithm of underwater image based on improved DeepLab v3+

Conference on Computer Graphics, Artificial Intelligence, and Data Processing Pub Date : 2023-05-23 DOI:10.1117/12.2674688

Yongqi Yuan, Yubo Tian

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Abstract

Underwater images are easily affected by external factors such as light and water impurities, resulting in low segmentation accuracy of underwater images. Aiming to solve the problem, this paper proposes a semantic segmentation method of underwater images by introducing a new branch to improve the structure of the DeepLab v3+ model. It exploits the low-semantic features of the input image to improve the performance of the network. In the new branch, down-sampling is used to adjust the resolution of the input image, and the dimension of the feature map is adjusted by 1×1 convolution. The attention mechanism is used to focus on the channel of the feature map, and finally, the feature map of the existing branch is merged. In the experiments on the SUIM underwater dataset, the average intersection ratio of the model is 72.88%, and the average pixel accuracy is 84.03%. In the experiments on the PASCAL VOC dataset, the average intersection ratio of the model is 75.85%, and the average pixel accuracy is 84.5%. Compared with existing mainstream algorithms, the proposed algorithm achieves better results.

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基于改进DeepLab v3+的水下图像语义分割算法

水下图像容易受到光线、水杂质等外界因素的影响，导致水下图像分割精度较低。针对这一问题，本文提出了一种水下图像的语义分割方法，通过引入一个新的分支来改进DeepLab v3+模型的结构。它利用输入图像的低语义特征来提高网络的性能。在新分支中，采用降采样调整输入图像的分辨率，并通过1×1卷积调整特征图的尺寸。利用注意机制对特征图的通道进行关注，最后对已有分支的特征图进行合并。在SUIM水下数据集的实验中，模型的平均相交率为72.88%，平均像元精度为84.03%。在PASCAL VOC数据集上的实验中，该模型的平均相交率为75.85%，平均像素精度为84.5%。与现有主流算法相比，本文算法取得了更好的效果。

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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Conference on Computer Graphics, Artificial Intelligence, and Data Processing

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