Earthquake-Induced Damage Classification of Bridges Using Artificial Neural Networks
| 项目名称: | Earthquake-Induced Damage Classification of Bridges Using Artificial Neural Networks |
| 摘要: | Fragility analysis is currently used to develop a probabilistic seismic demand model with an assumed lognormal distribution and then determine the probability of exceeding certain seismic demand thresholds for various states of damage. Due to the complexity in probability calculations, the seismic demand is often defined by one intensity measure of the earthquake ground motion such as peak ground acceleration, and its lognormal distribution has been repeatedly demonstrated inaccurate as the level of damage increases. This study aims to develop artificial neural networks (ANNs) for a near real-time evaluation of the regional structural damage of a highway bridge network after a catastrophic earthquake. Bridge responses to the earthquake are treated as the earthquake-induced ground motion classifiers for structural damage states. The input and output layers of an ANN represent intensity measures of a ground motion and their corresponding damage state, respectively. To achieve this objective, the scope of work includes: (1) Select representative bridges along a major highway, (2) Collect and organize a big data set of ground motions, (3) Model the representative bridges and evaluate their damage states based on a damage index under the ground motions through time history analysis, (4) Label the ground motions with corresponding damage states and develop a balanced set of training and test data, (5) Train the ANN with the training dataset and evaluate the overall accuracy of damage prediction using unseen test dataset, (6) Optimize the ANN architecture for robust and accurate performance by ranking the importance of various intensity measures, comparing two structural damage indices, and considering varying numbers of hidden layers and neurons, and (7) Evaluate the performance of the ANNs for existing bridges along an emergency designated route with practical considerations of three intensity measures availed in the American Association of State Highway and Transportation Officials (AASHTO) Guide Specifications for Load and Resistance Factor Design (LRFD) Seismic Bridge Design. |
| 状态: | Active |
| 资金: | 351403 |
| 资助组织: | Office of the Assistant Secretary for Research and Technology |
| 项目负责人: | Stearns, Amy |
| 执行机构: | Missouri University of Science & Technology, Rolla |
| 开始时间: | 20210101 |
| 预计完成日期: | 20220630 |
| 主题领域: | Bridges and other structures;Design;Highways;Maintenance and Preservation;Planning and Forecasting |
相关文献
- Earthquake-Induced Bridge Displacements
- SPR-2322: Artificial Intelligence (AI) and Markov Process Based Data Mining on Predicting Bridge Operating Conditions
- FE-ANN Based Modeling of 3D Simple Reinforced Concrete Girders for Objective Structural Health Evaluation
- Bridge monitoring through a hybrid approach leveraging a modal updating technique and an artificial intelligence (AI) method
- Prediction and Mitigation of Scour for Vermont Bridges
- DeepHyd: A Deep Learning-based Artificial Intelligence Approach for the Automated Classification of Hydraulic Structures from LiDAR and Sonar Data
检索历史
应用推荐
