A computer vision–aided methodology for bridge flexibility identification from ambient vibrations

IF 8.5 1区 工程技术 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Yuyao Cheng, Siqi Jia, Jianliang Zhang, Jian Zhang
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引用次数: 0

Abstract

This paper presents the implementation of a novel monitoring system in which video images and conventional sensor network data are simultaneously analyzed to identify the structural flexibility from the ambient vibrations. The magnitude ratio between the flexibility estimated from known/unknown input force are theoretically derived and decomposed into two parts: and . The first scale factor related to basic modal parameters can be acquired using the general modal identification methods. Aiming to tackle the difficulty in identifying the second scale factor related to the force intensity, a video stream of traffic is processed to detect and classify vehicles to determine the vehicle's location while displacement measurements are simultaneously collected. By integrating the toll station data, the vehicle loads are assigned to the vehicle on the bridge deck through the uniqueness of the license plate number. Thus, a structural input–output relationship is established to solve the second scale factor . Finally, the flexibility estimated from the ambient vibration are scaled by and , respectively to obtain the exact flexibility , which are same as the analytical ones . Both numerical example and a laboratory test are performed to demonstrate the accuracy of the proposed methodology. The algorithms, approaches, and results given in the paper demonstrate its effectiveness and shows great potential for its application on a real‐life bridge's condition assessment.
从环境振动中识别桥梁柔性的计算机视觉辅助方法
本文介绍了一种新型监测系统的实施情况,该系统通过同时分析视频图像和传统传感器网络数据,从环境振动中识别结构柔性。根据已知/未知输入力估算出的柔性之间的大小比从理论上得出,并分解为两部分:和。与基本模态参数相关的第一个比例因子可通过一般模态识别方法获得。为了解决与力强度相关的第二个标度因子的识别难题,我们对交通视频流进行了检测和分类,以确定车辆的位置,同时收集位移测量数据。通过整合收费站数据,利用车牌号的唯一性将车辆荷载分配给桥面上的车辆。这样,就建立了结构输入输出关系,从而求解第二个比例系数。最后,根据环境振动估算出的柔度分别按比例计算和按比例计算,得到与分析结果相同的精确柔度。为了证明所提方法的准确性,我们进行了数值示例和实验室测试。文中给出的算法、方法和结果证明了其有效性,并显示了其在实际桥梁状况评估中的巨大应用潜力。
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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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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