Acoustic Emission Signal Denoising of Bridge Structures Using SOM Neural Network Machine Learning

Yu, Aiping; Liu, Xiangtai; Fu, Feng; Chen, Xuandong; Zhang, Yan

doi:10.1061/(asce)cf.1943-5509.0001778

Cited by 4 publications

(1 citation statement)

References 41 publications

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“…Traditional bridge health monitoring in the United States is mostly based on the use of strain gages, accelerometers, and displacement sensors. A review by Rizzo and Enshaeian [ 10 ] showed that other devices include, but are not limited to, tiltmeters [ 11 , 12 ], weigh-in motion sensors [ 13 ], non-contact displacement measurements [ 14 ], corrosion sensors [ 15 ], and acoustic emission [ 16 , 17 ].…”

Section: Introductionmentioning

confidence: 99%

Case Studies about Finite Element Modeling and Wireless Sensing of Three Pennsylvania Bridges

Enshaeian,

Ghahremani,

Rizzo

2024

Sensors

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Three Pennsylvanian bridges were studied using finite element and wireless sensor technology. A detailed finite element model of each bridge was created using a commercial software in order to calculate the strains generated by a load that simulates the presence of a standard truck. Pristine and damage scenarios were simulated, and the computed strains were compared to the experimental strains measured with proprietary wireless sensors during a truck test performed by companies not involved in the study presented in this article. The comparison demonstrated the accuracy of the model and the presence of a few non-critical anomalies in terms of load redistribution. In addition, the comparison proved the reliability of the wireless sensing system installed on the bridges, although some drift was observed. The structural monitoring program for the three bridges was also evaluated by processing more than two years of data streamed to a repository.

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Section: Introductionmentioning

confidence: 99%

Case Studies about Finite Element Modeling and Wireless Sensing of Three Pennsylvania Bridges

Enshaeian,

Ghahremani,

Rizzo

2024

Sensors

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Experimental study on train axle fatigue crack acoustic emission signals recognition based on a one-dimensional convolutional neural network

Lin,

Zhou,

et al. 2024

Nondestructive Testing and Evaluation

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Acoustic Material Monitoring in Harsh Steelplant Environments

et al. 2023

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This paper provides novel insights into the robustness of machine learning and signal-processing-based acoustic material classification for material transport in modern iron- and steelmaking. The proposed method is designed to deal with the specific harsh and challenging environmental conditions encountered in steel plants. Robust classification depends on the dataset and its contamination with noise. The present work investigates the application of noise detection together with classification algorithms and shows the impact on classification performance. Four contributions are addressed: (i) an evaluation of an outlier detection method for time series, which is based on the short-term enhanced root mean square value RMS (RMSe), (ii) a comparison of different artificial neural network (ANN) structures applied for acoustic classification of material classes, (iii) results on the test dataset splits and (iv) evaluation of the robustness of proposed convolutional neural network (CNN) architecture against environmental disturbances such as the adversarial dropping sound of contaminants. With the combination of preprocessing and CNN on a material transport process dataset, we show an improvement of the overall classification accuracy. It proves the significance of preprocessing a contaminated dataset and the applicability of CNN for real-world acoustic sensoring systems.

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Acoustic Emission Signal Denoising of Bridge Structures Using SOM Neural Network Machine Learning

Cited by 4 publications

References 41 publications

Case Studies about Finite Element Modeling and Wireless Sensing of Three Pennsylvania Bridges

Case Studies about Finite Element Modeling and Wireless Sensing of Three Pennsylvania Bridges

Experimental study on train axle fatigue crack acoustic emission signals recognition based on a one-dimensional convolutional neural network

Acoustic Material Monitoring in Harsh Steelplant Environments

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