🌙

基于注意力机制的序列到序列学习用于地震激励下结构响应在线预测

Attention-Based Sequence-to-Sequence Learning for Online Structural Response Forecasting Under Seismic Excitation

IEEE Transactions on Systems, Man, and Cybernetics: Systems · 2021
被引 54
ABS 3

中文导读

提出一种基于注意力机制的循环神经网络编码器-解码器模型,通过历史多变量时间序列学习地震激励与结构响应的关系,实现未来地震下结构响应的实时预测,并用上海中心大厦和木框架教室数据验证了准确性。

Abstract

In structural health monitoring (SHM), measuring and evaluating structural dynamic responses are critical for safety management of civil infrastructures. Particularly, online forecasting of the structural responses under extreme external loading conditions (e.g., earthquakes) takes a significant role in SHM to provide early warning and ensure safe operation. In practice, complex causality and intrinsic interactions between seismic excitation and structural response make it challenging to establish a reliable predictive scheme. The present paper proposes a novel deep recurrent neural network (RNN) model implemented in the architecture of a time-series attention-based RNN encoder–decoder (TSA-RNN-ED), for predictive analysis of structural responses under seismic excitation. In the proposed data-driven model, upcoming sequential responses are predicted through sequence-to-sequence learning from historical multivariate time-series signals. A time-series attention mechanism is proposed to exploit the heterogeneous, but directly related, hidden features between the seismic loads and the corresponding structural responses. The proposed architecture can reliably regress excitation-response interactions to predict dynamic responses subjected to future earthquakes while satisfying the need of real-time forecasting for on-site practical implementation. This article systematically evaluates the proposed model by using two real-world structural cases: 1) the tallest building in China, the Shanghai Tower and 2) a woodframe classroom on a shake table at the University of British Columbia in Vancouver, Canada. The experimental results demonstrate the accurate and efficient performance of the proposed methodology in forecasting the seismic responses of the structures under investigation.

结构健康监测地震工程深度学习时间序列预测循环神经网络