利用集合视觉模型进行螺栓松动评估,通过无目标透视适应自动定位和特征提取

IF 8.5 1区 工程技术 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Xiao Pan, T. Y. Yang
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引用次数: 0

摘要

螺栓松动评估对于识别结构退化预警和预防灾难性事件至关重要。本文提出了一种自动螺栓松动评估方法。首先,提出了一种新颖的端到端集合视觉模型 Bolt-FP-Net,用于同时推理螺栓的位置及其六边形特征模式。其次,提出了一种自适应无目标透视校正方法,以纠正透视失真并提高评估精度。最后,开发了一种迭代螺栓松动量化方法,用于估算和改进螺栓松动旋转。实验参数研究表明,所提出的 Bolt-FP-Net 可在不同环境条件下实现出色的性能。最后,对钢制螺栓连接进行了案例研究,结果表明所提出的方法可以在螺栓松动评估中实现高精度和实时速度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bolt loosening assessment using ensemble vision models for automatic localization and feature extraction with target‐free perspective adaptation
Bolt loosening assessment is crucial to identify early warnings of structural degradation and prevent catastrophic events. This paper proposes an automatic bolt loosening assessment methodology. First, a novel end‐to‐end ensemble vision model, Bolt‐FP‐Net, is proposed to reason the locations of bolts and their hexagonal feature patterns concurrently. Second, an adaptive target‐free perspective correction method is proposed to correct perspective distortion and enhance assessment accuracy. Finally, an iterative bolt loosening quantification is developed to estimate and refine the bolt loosening rotation. Experimental parametric studies indicated that the proposed Bolt‐FP‐Net can achieve excellent performance under different environmental conditions. Finally, a case study was conducted on steel bolt connections, which shows the proposed methodology can achieve high accuracy and real‐time speed in bolt loosening assessment.
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来源期刊
CiteScore
17.60
自引率
19.80%
发文量
146
审稿时长
1 months
期刊介绍: Computer-Aided Civil and Infrastructure Engineering stands as a scholarly, peer-reviewed archival journal, serving as a vital link between advancements in computer technology and civil and infrastructure engineering. The journal serves as a distinctive platform for the publication of original articles, spotlighting novel computational techniques and inventive applications of computers. Specifically, it concentrates on recent progress in computer and information technologies, fostering the development and application of emerging computing paradigms. Encompassing a broad scope, the journal addresses bridge, construction, environmental, highway, geotechnical, structural, transportation, and water resources engineering. It extends its reach to the management of infrastructure systems, covering domains such as highways, bridges, pavements, airports, and utilities. The journal delves into areas like artificial intelligence, cognitive modeling, concurrent engineering, database management, distributed computing, evolutionary computing, fuzzy logic, genetic algorithms, geometric modeling, internet-based technologies, knowledge discovery and engineering, machine learning, mobile computing, multimedia technologies, networking, neural network computing, optimization and search, parallel processing, robotics, smart structures, software engineering, virtual reality, and visualization techniques.
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