Petros C. Lazaridis, Ioannis E. Kavvadias, Konstantinos Demertzis, L. Iliadis, Antonios Papaleonidas, L. Vasiliadis, A. Elenas
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引用次数: 6
Abstract
Advanced machine learning algorithms, such as neural networks, have the potential to be successfully applied to many areas of system modelling. Several studies have been already conducted on forecasting structural damage due to individual earthquakes, ignoring the influence of seismic sequences, using neural networks. In the present study, an ensemble neural network approach is applied to predict the final structural damage of an 8-storey reinforced concrete frame under real and artificial ground motion sequences. Successive earthquakes consisted of two seismic events are utilised. We considered 16 well-known ground motion intensity measures and the structural damage that occurred by the first earthquake as the features of the machine-learning problem, while the final structural damage was the target. After the first seismic events and after the seismic sequences, both actual values of damage indices are calculated through nonlinear time history analysis. The machine-learning model is trained using the dataset generated from artificial sequences. Finally, the predictive capacity of the fitted neural network is accessed using the natural seismic sequences as a test set. P.C. Lazaridis, I.E. Kavvadias, K. Demertzis, L. Iliadis, A. Papaleonidas, L.K. Vasiliadis, A. Elenas
先进的机器学习算法,如神经网络,有可能成功地应用于系统建模的许多领域。在忽略地震序列影响的情况下,利用神经网络预测单个地震造成的结构破坏已经进行了几项研究。本文采用集成神经网络方法对某8层钢筋混凝土框架在真实地震动和人工地震动序列作用下的最终结构损伤进行了预测。利用由两次地震事件组成的连续地震。我们考虑了16个众所周知的地面运动强度测量和第一次地震发生的结构破坏作为机器学习问题的特征,而最终的结构破坏是目标。在第一次地震事件发生后和连续地震发生后,通过非线性时程分析计算损伤指标的实际值。机器学习模型使用人工序列生成的数据集进行训练。最后,以自然地震序列为测试集,对拟合神经网络的预测能力进行了测试。P.C. Lazaridis, I.E. Kavvadias, K. Demertzis, L. Iliadis, A. Papaleonidas, L.K. Vasiliadis, A. Elenas
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