A novel experience-based learning algorithm for structural damage identification: simulation and experimental verification

A simple yet powerful optimization algorithm, named the experience-based learning (EBL) algorithm, is proposed in this article for structural damage identification based on vibration data. This algorithm is free from any algorithm-specific control parameters and requires only common control paramete...

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Bibliographic Details
Published in:Engineering optimization 2020-10, Vol.52 (10), p.1658-1681
Main Authors: Zheng, Tongyi, Luo, Weili, Hou, Rongrong, Lu, Zhongrong, Cui, Jie
Format: Article
Language:English
Subjects:
Cantilever beams
Computer simulation
Damage detection
Damage identification
experience-based learning algorithm
Functionally gradient materials
Machine learning
mode shape
natural frequency
Optimization algorithms
Parameters
Particle swarm optimization
Resonant frequencies
Robustness (mathematics)
Search algorithms
Structural damage
structural health monitoring
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Summary:A simple yet powerful optimization algorithm, named the experience-based learning (EBL) algorithm, is proposed in this article for structural damage identification based on vibration data. This algorithm is free from any algorithm-specific control parameters and requires only common control parameters. The natural frequencies and/or mode shapes are utilized in establishing an objective function. The efficiency and robustness of the proposed method are demonstrated by two numerical examples, namely a television tower and a functionally graded material beam. A set of experimental work on a cantilever beam is studied for further verification. Both numerical and experimental results confirm the superiority of the proposed EBL algorithm in terms of convergence and accuracy for structural damage identification, in comparison with particle swarm optimization, the cloud model-based fruit fly optimization algorithm, squirrel search algorithm and teaching-learning-based optimization.
ISSN:0305-215X
1029-0273
DOI:10.1080/0305215X.2019.1668935