修晟, 张愿, 单伽锃. 基于视觉和振动监测数据融合的结构动态位移识别及其试验验证[J]. 工程力学, 2023, 40(11): 90-98. DOI: 10.6052/j.issn.1000-4750.2022.01.0106
引用本文: 修晟, 张愿, 单伽锃. 基于视觉和振动监测数据融合的结构动态位移识别及其试验验证[J]. 工程力学, 2023, 40(11): 90-98. DOI: 10.6052/j.issn.1000-4750.2022.01.0106
XIU Cheng, ZHANG Yuan, SHAN Jia-zeng. VISION AND VIBRATION DATA FUSION-BASED STRUCTURAL DYNAMIC DISPLACEMENT MEASUREMENT WITH TEST VALIDATION[J]. Engineering Mechanics, 2023, 40(11): 90-98. DOI: 10.6052/j.issn.1000-4750.2022.01.0106
Citation: XIU Cheng, ZHANG Yuan, SHAN Jia-zeng. VISION AND VIBRATION DATA FUSION-BASED STRUCTURAL DYNAMIC DISPLACEMENT MEASUREMENT WITH TEST VALIDATION[J]. Engineering Mechanics, 2023, 40(11): 90-98. DOI: 10.6052/j.issn.1000-4750.2022.01.0106

基于视觉和振动监测数据融合的结构动态位移识别及其试验验证

VISION AND VIBRATION DATA FUSION-BASED STRUCTURAL DYNAMIC DISPLACEMENT MEASUREMENT WITH TEST VALIDATION

  • 摘要: 结构变形的动态测量与精准识别对于结构健康监测和性态评估具有重要意义。传统接触式位移监测需要在结构上布置传感器并设置相对独立稳定的位移参考系,考虑真实结构的复杂性,接触式测量和稳定参考系的做法限制了结构位移动力监测的工程应用。基于计算机视觉的结构位移监测方法具有非接触式测量、设备安装简单、成本相对低廉等优点,但现有的识别与追踪方法受限于光照条件、图像分辨率、拍摄帧率等因素,一定程度上限制了视觉方法的工程应用。针对加速度传感器在结构监测领域的广泛应用及其动态采样率高的优势,该文提出在数据层面融合“接触式加速度监测、非接触式位移识别”的概念,构建了结构关键位移响应的精准估计方法。通过一个1/2比例钢筋混凝土框架结构振动台试验,对提出的结构位移估计方法进行了动力试验验证。研究结果表明:对比单一视觉识别方法,该数据融合方法有效提高位移采样率,同时获得更丰富的结构宽频带振动响应与模态特征信息。

     

    Abstract: The dynamic measurement and identification of structural deformation are of great significance for structural health monitoring and performance assessment. Traditional contact-type displacement monitoring inevitably requires the arrangement of measurement points on physical structures as well as the setting of stable reference systems, limiting the application of dynamic displacement measurement of structures in practice. Computer vision-based structural displacement monitoring has the advantage of non-contact measurement, simple installation, and relatively low cost. However, the existing displacement identification methods are still influenced by lighting conditions, image resolution, and shooting-rate, which restricts its engineering applications. In order to take advantage of the high dynamic sampling rate of the traditional contact acceleration sensor, the concept of 'contact acceleration monitoring and non-contact displacement recognition' was proposed and an accurate estimation method for the critical dynamic deformation state of the structure was constructed. The proposed method is validated through a 1/2 scale reinforced concrete frame structure. The results show that the method can improve the displacement sampling rate and collect high-frequency vibration information compared with a single structural displacement visual measurement technique.

     

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