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Dynamic response reconstruction for structural health monitoring using densely connected convolutional networks

Gao Fan, Jun Li, Hong Hao

2020Structural Health Monitoring141 citationsDOI

Abstract

This article proposes a novel dynamic response reconstruction approach for structural health monitoring using densely connected convolutional networks. Skip connection and dense block techniques are carefully applied in the designed network architecture, which greatly facilitates the information flow, and increases the training efficiency and accuracy of feature extraction and propagation with fewer parameters in the network. Sub-pixel shuffling and dropout techniques are used in the designed network and applied to reduce the computational demand and improve training efficiency. The network is trained in a supervised manner, where the input and output are the measurements of the available channels at response available locations and desired channels at response unavailable locations. The proposed densely connected convolutional networks automatically extract the high-level features of the input data and construct the complicated nonlinear relationship between the responses of available and desired locations. Experimental studies are conducted using the measured acceleration responses from Guangzhou New Television Tower to investigate the effects of the locations of available responses, the numbers of available and unavailable channels, and measurement noise. The results demonstrate that the proposed approach can accurately reconstruct the responses in both time and frequency domains with strong noise immunity. The reconstructed response is further used for modal identification to demonstrate the usability and accuracy of the reconstructed responses. The applicability of the proposed approach for structural health monitoring is further proved by the highly consistent modal parameters identified from the reconstructed and true responses.

Topics & Concepts

Computer scienceConvolutional neural networkBlock (permutation group theory)Noise (video)Feature (linguistics)Dropout (neural networks)ModalFeature extractionPattern recognition (psychology)Artificial intelligenceData miningMachine learningPolymer chemistryMathematicsChemistryGeometryPhilosophyLinguisticsImage (mathematics)Structural Health Monitoring TechniquesInfrastructure Maintenance and MonitoringUltrasonics and Acoustic Wave Propagation
Dynamic response reconstruction for structural health monitoring using densely connected convolutional networks | Litcius