March 3, 2026Open Access

基于改进yolo11的白坯布缺陷检测研究

Key Points

The modified DAM-YOLO model achieved a 2.3% increase in mAP@0.5 compared to the original YOLO11 model, indicating improved defect detection accuracy.
Enhanced feature extraction utilized the C3K2-DCNv2 module, which increased adaptability to deformations and complex backgrounds.
The integration of adaptive scale fusion and DySample modules allowed dynamic sampling and spatial adaptation, improving precision for small target detection.
The MultiSEAMHead reinforced target representation through multi-branch semantic decoupling and context aggregation strategies.

Abstract

针对白坯布瑕疵缺陷识别难度大、精度低且漏检率高的问题，对YOLO11模型进行了系统性的优化与改进，以提升目标检测模型在复杂场景中的检测精度与速度。首先，在主干网络中引入C3K2-DCNv2模块，利用可变形卷积增强模型对目标形变与复杂背景的适应能力。其次，在颈部网络部分，融合自适应尺度融合（adaptive scale fusion，ASF）模块与DySample模块形成ASF-DySample模块，实现了多尺度特征的动态采样与空间自适应融合，保留细节信息，进一步提升小目标检测精度，有效提升了特征表达能力。最后，检测头采用MultiSEAMHead，通过多分支语义解耦和上下文聚合策略，进一步强化目标表征能力。实验结果表明，改进后的DAM-YOLO模型的mAP@0.5较原始YOLO11模型提升了2.3%，验证了该模型在目标检测任务中的有效性与实用价值。

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Shi et al. (Thu,) studied this question.

www.synapsesocial.com/papers/69a760dcc6e9836116a2dfe7 — DOI: https://doi.org/10.5768/jao202647.0103004

Authors

Zeyang Shi

华

华北理工大学电气工程学院，河北唐山 063210

Xiaolong ZHANG

Journals

Journal of Applied Optics

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基于改进yolo11的白坯布缺陷检测研究

Key Points

Abstract

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