Nondestructive inspection method of welding rate for heat sink fins with complex structure via infrared thermography principle and deep learning method

IF 7.5 1区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
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引用次数: 0

Abstract

This paper proposes a non-destructive defect inspection technique based on infrared thermal imaging and improved YOLOv5 algorithm to achieve accurate inspection of finned heat sink welding rate, which can be used to improve the quality of finned heat sink defect inspection. Using fin heat dissipation and infrared thermal imaging principles, samples with heat sink quality problems can be efficiently identified, guaranteeing high quality acquisition of samples. By improving the YOLOv5 algorithm applying BiFPN (Bidirectional Feature Pyramid Network) feature fusion method to improve the neck structure of the original network structure, simplify the convolution nodes, add the CBAM (Convolutional Block Attention Module) module to improve the feature extraction capability and inspection efficiency, and optimise the original loss function and prediction frame screening method in order to improve the infrared target inspection accuracy. The experiment verifies that the improved model can effectively detect defective targets under different backgrounds, and the average inspection accuracy (mAP) can reach 90.3 %, which makes the model more adaptable and reliable in practical applications compared with traditional target inspection algorithms.

通过红外热成像原理和深度学习方法对复杂结构散热片焊接率进行无损检测的方法
本文提出了一种基于红外热成像和改进的 YOLOv5 算法的无损缺陷检测技术,实现了对鳍片散热器焊接率的精确检测,可用于提高鳍片散热器缺陷检测质量。利用翅片散热和红外热成像原理,可以有效识别存在散热片质量问题的样品,保证样品的高质量采集。通过对 YOLOv5 算法的改进,应用 BiFPN(双向特征金字塔网络)特征融合方法改进了原有网络结构的颈部结构,简化了卷积节点,增加了 CBAM(卷积块注意模块)模块,提高了特征提取能力和检测效率,并优化了原有的损失函数和预测帧筛选方法,以提高红外目标检测精度。实验验证了改进后的模型能有效检测不同背景下的缺陷目标,平均检测精度(mAP)可达 90.3%,与传统的目标检测算法相比,该模型在实际应用中更具适应性和可靠性。
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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来源期刊
Expert Systems with Applications
Expert Systems with Applications 工程技术-工程:电子与电气
CiteScore
13.80
自引率
10.60%
发文量
2045
审稿时长
8.7 months
期刊介绍: Expert Systems With Applications is an international journal dedicated to the exchange of information on expert and intelligent systems used globally in industry, government, and universities. The journal emphasizes original papers covering the design, development, testing, implementation, and management of these systems, offering practical guidelines. It spans various sectors such as finance, engineering, marketing, law, project management, information management, medicine, and more. The journal also welcomes papers on multi-agent systems, knowledge management, neural networks, knowledge discovery, data mining, and other related areas, excluding applications to military/defense systems.
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