LMFE-RDD:采用轻量级多特征提取网络的道路损坏检测器

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-06-14 DOI:10.1007/s00530-024-01367-z
Qihan He, Zhongxu Li, Wenyuan Yang
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引用次数: 0

摘要

利用计算机视觉和深度学习自动识别各类道路损伤的道路损伤检测是物体检测中的一项高效应用,可以显著提高道路养护规划和维修工作的效率,保障道路安全。然而,由于目标识别的复杂性,现有的道路损伤检测模型通常携带大量参数,计算量较大,导致推理速度较慢,这在一定程度上限制了模型在计算资源有限的设备上的实际部署。在本研究中,我们提出了一种兼顾速度与精度的道路损伤检测器 LMFE-RDD,它构建了一个轻量级多特征提取网络(LMFE-Net)作为骨干网络,并构建了一个高效语义融合网络(ESF-Net)进行多尺度特征融合。首先,作为骨干特征提取网络,LMFE-Net 输入道路损坏图像,以获得三个不同尺度的特征图。其次,ESF-Net 将这三个特征图进行融合,输出三个融合特征。最后,发送检测头进行目标识别和定位,得到最终结果。此外,我们还使用了 WDB 损失,这是一种具有非单调动态聚焦机制的多任务损失函数,更加关注边界框回归损失。实验结果表明,所提出的 LMFE-RDD 模型在保证速度的同时,还具有极高的精度。在多视角道路损坏数据集中,结合所有视角的数据,LMFE-RDD 实现了 51.0 FPS 的检测速度和 64.2% 的 mAP@0.5,但参数仅为 13.5 M。
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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LMFE-RDD: a road damage detector with a lightweight multi-feature extraction network

Road damage detection using computer vision and deep learning to automatically identify all kinds of road damage is an efficient application in object detection, which can significantly improve the efficiency of road maintenance planning and repair work and ensure road safety. However, due to the complexity of target recognition, the existing road damage detection models usually carry a large number of parameters and a large amount of computation, resulting in a slow inference speed, which limits the actual deployment of the model on the equipment with limited computing resources to a certain extent. In this study, we propose a road damage detector named LMFE-RDD for balancing speed and accuracy, which constructs a Lightweight Multi-Feature Extraction Network (LMFE-Net) as the backbone network and an Efficient Semantic Fusion Network (ESF-Net) for multi-scale feature fusion. First, as the backbone feature extraction network, LMFE-Net inputs road damage images to obtain three different scale feature maps. Second, ESF-Net fuses these three feature graphs and outputs three fusion features. Finally, the detection head is sent for target identification and positioning, and the final result is obtained. In addition, we use WDB loss, a multi-task loss function with a non-monotonic dynamic focusing mechanism, to pay more attention to bounding box regression losses. The experimental results show that the proposed LMFE-RDD model has competitive accuracy while ensuring speed. In the Multi-Perspective Road Damage Dataset, combining the data from all perspectives, LMFE-RDD achieves the detection speed of 51.0 FPS and 64.2% mAP@0.5, but the parameters are only 13.5 M.

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4.30%
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