Litcius/Paper detail

Short-term damage alarming with limited vibration data in bridge structures: A fully non-parametric machine learning technique

Alireza Entezami, Hassan Sarmadi, Bahareh Behkamal

2024Measurement40 citationsDOIOpen Access PDF

Abstract

Machine learning-assisted vibration monitoring is an intelligent, automated, and popular strategy for evaluating civil structures and damage alarming. However, implementing this strategy under a short-term monitoring program may encounter challenges such as limited vibration data, profound environmental and operational variations, and the limitations of state-of-the-art solutions under these conditions. The main purpose of this paper is to propose a novel machine learning technique in terms of unsupervised learning for damage alarming with limited vibration data. The crux of this technique lies in two fully non-parametric parts of data partitioning and anomaly detection. Initially, a non-parametric clustering approach with a novel procedure is presented to divide limited vibration data into clusters. Subsequently, a new density-based anomaly detector is developed to prepare indicators for damage alarming. Limited eigenfrequencies of full-scale bridge structures are used to validate the proposed solution. Results can substantiate its effectiveness and practicability in short-term monitoring programs.

Topics & Concepts

Bridge (graph theory)Term (time)Parametric statisticsStructural engineeringVibrationComputer scienceEngineeringForensic engineeringAcousticsPhysicsMathematicsInternal medicineMedicineStatisticsQuantum mechanicsStructural Health Monitoring TechniquesInfrastructure Maintenance and MonitoringConcrete Corrosion and Durability