The Improvement of Faster-RCNN Crack Recognition Model and Parameters Based on Attention Mechanism

Symmetry Pub Date : 2024-08-12 DOI:10.3390/sym16081027

Qiule Li, Xiangyang Xu, Jijie Guan, Hao Yang

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Abstract

In recent years, computer vision technology has been extensively applied in the field of defect detection for transportation infrastructure, particularly in the detection of road surface cracks. Given the variations in performance and parameters across different models, this paper proposes an improved Faster R-CNN crack recognition model that incorporates attention mechanisms. The main content of this study includes the use of the residual network ResNet50 as the basic backbone network for feature extraction in Faster R-CNN, integrated with the Squeeze-and-Excitation Network (SENet) to enhance the model’s attention mechanisms. We thoroughly explored the effects of integrating SENet at different layers within each bottleneck of the Faster R-CNN and its specific impact on model performance. Particularly, SENet was added to the third convolutional layer, and its performance enhancement was investigated through 20 iterations. Experimental results demonstrate that the inclusion of SENet in the third convolutional layer significantly improves the model’s accuracy in detecting road surface cracks and optimizes resource utilization after 20 iterations, thereby proving that the addition of SENet substantially enhances the model’s performance.

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基于注意力机制的更快-RCNN 裂纹识别模型和参数的改进

近年来，计算机视觉技术被广泛应用于交通基础设施的缺陷检测领域，尤其是路面裂缝的检测。鉴于不同模型的性能和参数存在差异，本文提出了一种改进的 Faster R-CNN 裂纹识别模型，该模型结合了注意力机制。本研究的主要内容包括使用残差网络 ResNet50 作为 Faster R-CNN 特征提取的基本骨干网络，并与挤压激励网络 (SENet) 集成以增强模型的注意机制。我们深入探讨了将 SENet 集成到 Faster R-CNN 各瓶颈中不同层的效果及其对模型性能的具体影响。特别是在第三卷积层加入 SENet，并通过 20 次迭代研究了其性能提升效果。实验结果表明，在第三卷积层中加入 SENet 后，模型检测路面裂缝的准确性显著提高，并且在 20 次迭代后优化了资源利用率，从而证明加入 SENet 后模型的性能得到了大幅提升。

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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Symmetry

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