A damage detection procedure using two major signal processing techniques with the artificial neural network on a scaled jacket offshore platform

Nejad, Nakisa Mansouri; Aval, Seyed Bahram Beheshti; Maldar, Mohammad; Asgarian, Behrouz

doi:10.1177/1369433220981663

Advances in Structural Engineering

2020

DOI: 10.1177/1369433220981663

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A damage detection procedure using two major signal processing techniques with the artificial neural network on a scaled jacket offshore platform

Nakisa Mansouri Nejad

Seyed Bahram Beheshti Aval

Mohammad Maldar

et al.

Abstract: With the help of Structural Health Monitoring (SHM) methods, it is possible to identify the occurrence of damage at its early stages and prevent fatality and financial damages. Great advances in signal processing methods in combination with Machine learning tools have led to better achieve this goal. In the present paper, the two major techniques, that is, Empirical Mode Decomposition (EMD) and Discrete Wavelet Transform (DWT) are combined with Artificial Neural Network (ANN) through processing raw acceleratio… Show more

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Cited by 6 publications

References 71 publications

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Multiclass Supervised Machine Learning Algorithms Applied to Damage and Assessment Using Beam Dynamic Response

de Sousa,

da Silva Coelho,

Machado

et al. 2023

J. Vib. Eng. Technol.

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Purpose Structural damage can significantly alter a system's local flexibility, leading to undesirable displacements and vibrations. Analysing the dynamic structure feature through statistical analysis enables us to discriminate the current structural condition and predict its short- or long-term lifespan. By directly affecting the system's vibration, cracks and discontinuities can be detected, and their severity quantified using the DI. Two damage indexes (DI) are used to build a dataset from the beam's natural frequency and frequency response function (FRF) under both undamaged and damaged conditions, and numerical and experimental tests provided the data-driven. Methods In this paper, we present the methodology based on machine learning (ML) to monitor the structural integrity of a beam-like structure. The performance of six ML algorithms, including k-nearest neighbors (kNN), Support Vector Machine (SVM), Decision Tree (DT), Random Forest (RF), and Naive Bayes (NB) are investigated. Results The paper discusses the challenges of implementing each technique and assesses their performance in accurately classifying the dataset and indicating the beam's integrity. Conclusion The structural monitoring performed with the ML algorithm achieved excellent metrics when inputting the simulation-generated dataset, up to 100%, and up to 95% having as input dataset provided from experimental tests. Demonstrating that the ML algorithm could correctly classify the health condition of the structure.

show abstract

Multiclass Supervised Machine Learning Algorithms Applied to Damage and Assessment Using Beam Dynamic Response

de Sousa,

da Silva Coelho,

Machado

et al. 2023

J. Vib. Eng. Technol.

View full text Add to dashboard Cite

show abstract

Damage detection of offshore jacket structures using structural vibration measurements: Application of a new hybrid machine learning method

Leng,

Incecik,

Wang

et al. 2023

Ocean Engineering

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Damage identification for pile foundation in high-piled wharf using composite energy factors driven by dynamic response under wave impact excitation

Li,

Wang,

Zhu

et al. 2024

Ocean Engineering

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A damage detection procedure using two major signal processing techniques with the artificial neural network on a scaled jacket offshore platform

Cited by 6 publications

References 71 publications

Multiclass Supervised Machine Learning Algorithms Applied to Damage and Assessment Using Beam Dynamic Response

Multiclass Supervised Machine Learning Algorithms Applied to Damage and Assessment Using Beam Dynamic Response

Damage detection of offshore jacket structures using structural vibration measurements: Application of a new hybrid machine learning method

Damage identification for pile foundation in high-piled wharf using composite energy factors driven by dynamic response under wave impact excitation

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