Structural nonlinear damage identification based on Bayesian optimization GNAR/GARCH model and its experimental study
Author:
Publisher
Elsevier BV
Subject
Safety, Risk, Reliability and Quality,Building and Construction,Architecture,Civil and Structural Engineering
Reference44 articles.
1. Study on the Sensitive Factors of Structural Nonlinear Damage Based on the Innovation Series;Chen;Int J Struct Stab Dyn,2020
2. A two-step interval structural damage identification approach based on model updating and set-membership technique;Mo;Measurement,2021
3. Damage diagnosis of high-rise buildings under variable ambient conditions using subdomain approach;Lakshmi;Inverse Prob Sci Eng,2021
4. Vibrational based inspection of civil engineering structures;Rytter,1993
5. Combined damage detection techniques;Vanlanduit;J Sound Vib,2003
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1. Data-Driven Structural Health Monitoring: Leveraging Amplitude-Aware Permutation Entropy of Time Series Model Residuals for Nonlinear Damage Diagnosis;Sensors;2024-01-13
2. Experimental Analysis and Machine Learning of Ground Vibrations Caused by an Elevated High-Speed Railway Based on Random Forest and Bayesian Optimization;Sustainability;2023-08-23
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