Early Stage Detection of Crack in Glasses by Hybrid CNN Transformation Approach

December 2021 Pub Date : 2021-12-13 DOI:10.36548/jaicn.2021.4.007

R. Kanthavel

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Abstract

Recently, glass crack detection methods have been emerging in Artificial intelligence programming. The early detection of the crack in glass could save many lives. Glass fractures can be detected automatically using machine vision. However, this has not been extensively researched. As a result, a detection algorithm is a benefit to study the mechanics of glass cracking. To test the algorithm, benchmark data are used and analysed. According to the first findings, the algorithm is capable of figuring out the screen more or less correctly and identifying the main fracture structures with sufficient efficiency required for majority of the applications. This research article has addressed the early detection of glass cracks by using edge detection, which delivers excellent accuracy in fracture identification. Following the pre-processing stage, the CNN technique extracts additional characteristics from the input pictures that have been provided due to dense feature extraction. The "Adam" optimizer is used to update the bias weights of networks in a cost-effective manner. Early identification is achievable with high accuracy metrics when using these approaches, as shown in the findings and discussion part of this paper.

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基于混合CNN变换方法的玻璃裂纹早期检测

近年来，人工智能编程中出现了玻璃裂纹检测方法。玻璃裂缝的早期发现可以挽救许多人的生命。使用机器视觉可以自动检测玻璃骨折。然而，这还没有得到广泛的研究。因此，一种检测算法有利于研究玻璃裂纹的力学特性。为了验证该算法，使用了基准数据并进行了分析。根据第一个发现，该算法能够或多或少正确地计算出筛管，并以足够的效率识别出大多数应用所需的主要裂缝结构。本文研究了利用边缘检测对玻璃裂纹进行早期检测的方法，该方法对玻璃裂纹的识别具有很高的准确性。在预处理阶段之后，CNN技术从密集特征提取已经提供的输入图片中提取额外的特征。使用“亚当”优化器以经济有效的方式更新网络的偏置权值。当使用这些方法时，可以通过高精度度量实现早期识别，如本文的发现和讨论部分所示。

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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December 2021

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