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引用次数: 0
摘要
金属表面缺陷检测在生产质量控制中具有重要意义。然而,由于噪声干扰、较大的外观变化以及缺陷个体的模糊定义,这一任务非常具有挑战性。传统的图像处理方法无法有效、高效地检测出损伤区域。本文提出了一种新的缺陷检测方法——混合nms (Attention Cascade R-CNN with Mix-NMS, ACRM)来对缺陷进行鲁棒分类和定位。为了实现这一目标,本文开发了三个子模块:1)引入了一个轻量级的注意力块,提高了在空间和信道维度上捕获全局和局部特征的能力;2)我们首先将级联R-CNN应用于我们的任务,该任务利用多个检测器对检测结果进行顺序鲁棒化改进;3)我们引入了一种新的混合非最大抑制(Mix- nms)方法,它可以显著提高我们任务中冗余检测结果的过滤能力。在真实工业数据集上的大量实验表明,与现有方法相比,ACRM达到了最先进的结果,证明了我们的检测方法的有效性和鲁棒性。
ACRM: Attention Cascade R-CNN with Mix-NMS for Metallic Surface Defect Detection
Metallic surface defect detection is of great significance in quality control for production. However, this task is very challenging due to the noise disturbance, large appearance variation, and the ambiguous definition of the defect individual. Traditional image processing methods are unable to detect the damaged region effectively and efficiently. In this paper, we propose a new defect detection method, Attention Cascade R-CNN with Mix-NMS (ACRM), to classify and locate defects robustly. Three submodules are developed to achieve this goal: 1) a lightweight attention block is introduced, which can improve the ability in capture global and local feature both in the spatial and channel dimension; 2) we firstly apply the cascade R-CNN to our task, which exploits multiple detectors to sequentially refine the detection result robustly; 3) we introduce a new method named Mix Non-Maximum Suppression (Mix-NMS), which can significantly improve its ability in filtering the redundant detection result in our task. Extensive experiments on a real industrial dataset show that ACRM achieves state-of-the-art results compared to the existing methods, demonstrating the effectiveness and robustness of our detection method.
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