Abstract
An accurate dam deformation prediction model is vital to a dam safety monitoring system, as it helps assess and manage dam risks. Most traditional dam deformation prediction algorithms ignore the interpretation and evaluation of variables and lack qualitative measures. This paper proposes a data processing framework that uses a long short-term memory (LSTM) model coupled with an attention mechanism to predict the deformation response of a dam structure. First, the random forest (RF) model is introduced to assess the relative importance of impact factors and screen input variables. Secondly, the density-based spatial clustering of applications with noise (DBSCAN) method is used to identify and filter the equipment based abnormal values to reduce the random error in the measurements. Finally, the coupled model is used to focus on important factors in the time dimension in order to obtain more accurate nonlinear prediction results. The results of the case study show that, of all tested methods, the proposed coupled method performed best. In addition, it was found that temperature and water level both have significant impacts on dam deformation and can serve as reliable metrics for dam management.
Highlights
N is the number (α) of decision trees in the set random forest. ŷi is the dam deformation prediction result obtained by the i-th decision tree using Xα . y is the average value of the observed data for dam deformation
This factor increases the complexity of dam deformation prediction in the time dimension, so this paper develops a dam deformation prediction method based on the attention mechanism coupled with long short-term memory (LSTM) model
We introduce the method of grid search (GS) [31] to tune the hyperparameters on the data of training set
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. The attention mechanism in the time dimension can preferentially allocate the limited information processing resources in the short term to key data, while the LSTM network can extract long-term change trends from dam deformation time series This coupled model is able to obtain more accurate dam deformation prediction results while enriching variable interpretation in the time dimension of the prediction model. An attention mechanism focuses on the important variables in the short-term time dimension, while the LSTM model captures long-term change characteristics This algorithm is very suitable for the prediction of dam deformation by accounting for time lag.
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