A study of multi-target image-based displacement measurement approach for field testing of bridges

IF 3 Q2 ENGINEERING, CIVIL
Isaias A. Colombani, B. Andrawes
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引用次数: 6

Abstract

ABSTRACT As the demand for field testing of bridges grows, so does the need to optimize field testing procedures to allow for a simplified testing strategy that can be employed more effectively. With the advent of computer vision, there has been limited research exploring Feature-Based Image Registration (FBIR) methods for structural testing of bridges. In this paper, the potential of a simple FBIR approach to accurately capture submillimeter displacements using consumer-grade cameras will be demonstrated through a field test on a reinforced concrete slab bridge and on a full-scale bridge deck specimen in the laboratory. The internal and external parameters that influence the results of this measurement strategy were investigated by using various camera positions during the laboratory tests and applying different threshold parameters to the Speeded-Up Robust Features algorithm used for the feature detection and matching. The FBIR method demonstrates great potential, producing an average measurement accuracy within 1.6% of conventional displacement sensors during the field test and 3.3% during the laboratory tests. Altogether, the advantages to this image-based measurement approach enhance the load testing strategy to be implemented by bridge owners at much lower costs and with minimal complication and field setup.
基于多目标图像的桥梁现场测试位移测量方法研究
随着桥梁现场测试需求的增长,优化现场测试程序的需求也在增长,以简化测试策略,从而更有效地应用。随着计算机视觉的出现,基于特征的图像配准(FBIR)方法在桥梁结构检测中的应用研究有限。在本文中,将通过在实验室的钢筋混凝土板桥和全尺寸桥面样品上进行现场测试,展示使用消费级相机精确捕获亚毫米位移的简单FBIR方法的潜力。通过在实验室测试中使用不同的相机位置,并对用于特征检测和匹配的加速鲁棒特征算法应用不同的阈值参数,研究了影响该测量策略结果的内部和外部参数。FBIR方法显示了巨大的潜力,在现场测试中,其平均测量精度在常规位移传感器的1.6%以内,在实验室测试中为3.3%。总之,这种基于图像的测量方法的优势增强了桥梁业主以更低的成本和最小的复杂性和现场设置来实施负载测试策略。
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
CiteScore
3.90
自引率
9.50%
发文量
24
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