基于mems采集系统的古砖石钟楼动态识别

2015 IEEE Workshop on Environmental, Energy, and Structural Monitoring Systems (EESMS) Proceedings Pub Date : 2015-07-09 DOI:10.1109/EESMS.2015.7175882

Elisa Bassoli, Loris Vincenzi, Marco Bovo, C. Mazzotti

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引用次数: 22

摘要

本文报道了位于意大利菲卡洛洛的一座钟楼的动力试验结果。在2012年发生的艾米利亚地震之后，钟楼报告了严重的损坏模式，因此，进行了改造干预。在加固前后进行了动力试验，以研究钟楼的模态特性，并评估干预可能导致的动力行为变化。环境振动时的加速度是通过先进的mems系统记录的，其主要特点是以数字形式传输数据，并且可以直接在传感器上执行一些系统分析。利用11个双轴MEMS单元获得加速度。前8个模态被清楚地识别出来，其固有频率在0.5-9.0 Hz范围内。最后，将安装的基于mems的系统与传统的模拟(压电)系统的性能进行了比较，并对结果进行了严格的比较。

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Dynamic identification of an ancient masonry bell tower using a MEMS-based acquisition system

In this paper results of dynamic tests performed on a bell tower located in Ficarolo (Italy) are reported. After the Emilia earthquake that occurred in 2012, the bell tower reported a serious damage pattern and, as a consequence, retrofitting interventions were carried out. Dynamic tests before and after the strengthening were performed to investigate the modal properties of the bell tower and to evaluate possible changes in dynamic behavior due to the intervention. Accelerations during ambient vibrations were recorded by means of an advanced MEMS-based system, whose main features are the transmission of the data in digital form and the possibility of performing some system analyses directly on-board of the sensors. Accelerations were acquired using 11 biaxial MEMS units. First 8 modes are clearly identified, with natural frequencies in the range 0.5-9.0 Hz. Finally, a comparison between the performances of the installed MEMS-based system and a traditional analog (piezoelectric) system is carried out and results are critically compared.

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2015 IEEE Workshop on Environmental, Energy, and Structural Monitoring Systems (EESMS) Proceedings

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