From Dataset Creation to Defect Detection: A Proposed Procedure for a Custom CNN Approach for Polishing Applications on Low-Performance PCs

Machines Pub Date : 2024-07-02 DOI:10.3390/machines12070453

Albin Bajrami, Matteo Claudio Palpacelli

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Abstract

This study focuses on training a custom, small Convolutional Neural Network (CNN) using a limited dataset through data augmentation that is aimed at developing weights for subsequent fine-tuning on specific defects, namely improperly polished aluminum surfaces. The objective is to adapt the network for use in computationally restricted environments. The methodology involves using two computers—a low-performance PC for network creation and initial testing and a more powerful PC for network training using the Darknet framework—after which the network is transferred back to the initial low-performance PC. The results demonstrate that the custom lightweight network suited for a low-performance PC effectively performs object detection under the described conditions. These findings suggest that using tailored lightweight networks for recognizing specific types of defects is feasible and warrants further investigation to enhance the industrial defect detection processes in limited computational settings. This approach highlights the potential for deploying AI-driven quality control in environments with constrained hardware capabilities.

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从数据集创建到缺陷检测：低性能 PC 上抛光应用的定制 CNN 方法拟议流程

本研究的重点是通过数据扩增，使用有限的数据集训练一个定制的小型卷积神经网络（CNN），目的是开发权重，以便随后针对特定缺陷（即铝表面抛光不当）进行微调。目的是使网络适用于计算受限的环境。该方法包括使用两台计算机--一台低性能 PC 用于网络创建和初始测试，另一台更强大的 PC 用于使用 Darknet 框架进行网络训练--之后将网络传输回初始的低性能 PC。结果表明，在所述条件下，适合低性能 PC 的定制轻量级网络能有效地进行物体检测。这些研究结果表明，使用定制的轻量级网络识别特定类型的缺陷是可行的，值得进一步研究，以便在有限的计算环境中增强工业缺陷检测流程。这种方法凸显了在硬件能力有限的环境中部署人工智能驱动的质量控制的潜力。

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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