Research on marine flexible biological target detection based on improved YOLOv8 algorithm

IF 3.5 4区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE PeerJ Computer Science Pub Date : 2024-08-22 DOI:10.7717/peerj-cs.2271
Yu Tian, Yanwen Liu, Baohang Lin, Peng Li
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Abstract

To address the challenge of suboptimal object detection outcomes stemming from the deformability of marine flexible biological entities, this study introduces an algorithm tailored for detecting marine flexible biological targets. Initially, we compiled a dataset comprising marine flexible biological subjects and developed a Contrast Limited Adaptive Histogram Equalization (CLAHE) algorithm, supplemented with a boundary detection enhancement module, to refine underwater image quality and accentuate the distinction between the images’ foregrounds and backgrounds. This enhancement mitigates the issue of foreground-background similarity encountered in detecting marine flexible biological entities. Moreover, the proposed adaptation incorporates a Deformable Convolutional Network (DCN) network module in lieu of the C2f module within the YOLOv8n algorithm framework, thereby augmenting the model’s proficiency in capturing geometric transformations and concentrating on pivotal areas. The Neck network module is enhanced with the RepBi-PAN architecture, bolstering its capability to amalgamate and emphasize essential characteristics of flexible biological targets. To advance the model’s feature information processing efficiency, we integrated the SimAM attention mechanism. Finally, to diminish the adverse effects of inferior-quality labels within the dataset, we advocate the use of WIoU (Wise-IoU) as a bounding box loss function, which serves to refine the anchor boxes’ quality assessment. Simulation experiments show that, in comparison to the conventional YOLOv8n algorithm, our method markedly elevates the precision of marine flexible biological target detection.
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基于改进型 YOLOv8 算法的海洋柔性生物目标探测研究
针对海洋柔性生物实体的可变形性导致目标检测结果不理想的挑战,本研究引入了一种专门用于检测海洋柔性生物目标的算法。首先,我们编制了一个包含海洋柔性生物目标的数据集,并开发了一种对比度受限自适应直方图均衡(CLAHE)算法,辅以边界检测增强模块,以改善水下图像质量,突出图像前景与背景之间的区别。这种增强功能可减轻在检测海洋柔性生物实体时遇到的前景-背景相似性问题。此外,在 YOLOv8n 算法框架内,拟议的适应性调整采用了可变形卷积网络(DCN)网络模块来替代 C2f 模块,从而提高了模型捕捉几何变换和集中于关键区域的能力。采用 RepBi-PAN 架构增强了 Neck 网络模块,提高了其综合和强调灵活生物目标基本特征的能力。为了提高模型的特征信息处理效率,我们整合了 SimAM 注意机制。最后,为了减少数据集中劣质标签的不利影响,我们提倡使用 WIoU(Wise-IoU)作为边界框损失函数,以完善锚点框的质量评估。模拟实验表明,与传统的 YOLOv8n 算法相比,我们的方法明显提高了海洋柔性生物目标检测的精度。
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来源期刊
PeerJ Computer Science
PeerJ Computer Science Computer Science-General Computer Science
CiteScore
6.10
自引率
5.30%
发文量
332
审稿时长
10 weeks
期刊介绍: PeerJ Computer Science is the new open access journal covering all subject areas in computer science, with the backing of a prestigious advisory board and more than 300 academic editors.
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