Jin‐Hak Yi scite author profile

As researchers continue to explore wireless sensors for use in structural monitoring systems, validation of field performance must be done using actual civil structures. In this study, a network of low-cost wireless sensors was installed in the Geumdang Bridge, Korea to monitor the bridge response to truck loading. Such installations allow researchers to quantify the accuracy and robustness of wireless monitoring systems within the complex environment encountered in the field. In total, 14 wireless sensors were installed in the concrete box girder span of the Geumdang Bridge to record acceleration responses to forced vibrations introduced by a calibrated truck. In order to enhance the resolution of the capacitive accelerometers interfaced to the wireless sensors, a signal conditioning circuit that amplifies and filters low-level accelerometer outputs is proposed. The performance of the complete wireless monitoring system is compared to a commercial tethered monitoring system that was installed in parallel. The performance of the wireless monitoring system is shown to be comparable to that of the tethered counterpart. Computational resources (e.g. microcontrollers) coupled with each wireless sensor allow the sensor to estimate modal parameters of the bridge such as modal frequencies and operational displacement shapes. This form of distributed processing of measurement data by a network of wireless sensors represents a new data management paradigm associated with wireless structural monitoring.

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Neural networks-based damage detection for bridges considering errors in baseline finite element models

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et al. 2005

Journal of Sound and Vibration

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Health-Monitoring Method for Bridges Under Ordinary Traffic Loadings

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et al. 2002

Journal of Sound and Vibration

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Comparative study on modal identification methods using output-only information

Yi¹,

Yun²

2004

Structural Engineering and Mechanics

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Joint damage assessment of framed structures using a neural networks technique

Yun

Bahng

2001

Engineering Structures

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Jin‐Hak Yi

Performance monitoring of the Geumdang Bridge using a dense network of high-resolution wireless sensors

Neural networks-based damage detection for bridges considering errors in baseline finite element models

Health-Monitoring Method for Bridges Under Ordinary Traffic Loadings

Comparative study on modal identification methods using output-only information

Joint damage assessment of framed structures using a neural networks technique

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