Vibration-based damage detection in civil structures using data-driven methods requires sufficient vibration responses acquired with a sensor network. Due to technical and economic reasons, it is not always possible to deploy a large number of sensors. This limitation may lead to partial information being handled for damage detection purposes, under environmental variability. To address this challenge, this article proposes an innovative multi-level machine learning method by employing the autoregressive spectrum as the main damage-sensitive feature. The proposed method consists of three levels: (i) distance calculation by the log-spectral distance, to increase damage detectability and generate distance-based training and test samples; (ii)...
This investigation addresses the problem of damage assessment in mechanical and civil engineering st...
Traditional vibration-based damage detection methods provide structural health information based on ...
Monitoring structural damage is extremely important for sustaining and preserving the service life o...
Vibration-based damage detection in civil structures using data-driven methods requires sufficient v...
This paper proposes a novel method suitable for vibration-based damage identification of civil struc...
Vibration-based Structural Health Monitoring (SHM) methods often rely upon vibration responses meas...
Structural Health Monitoring (SHM) via data-driven techniques can be based upon vibrations acquired ...
Vibration-based structural health monitoring represents an efficient way to evaluate structural inte...
Monitoring structural damage is extremely important for sustaining and preserving the service life o...
Ambient excitations applied to structures may lead to non-stationary vibration responses. In such ci...
Monitoring structural damage is extremely important for sustaining and preserving the service life o...
This investigation addresses the problem of damage assessment in mechanical and civil engineering st...
Traditional vibration-based damage detection methods provide structural health information based on ...
Monitoring structural damage is extremely important for sustaining and preserving the service life o...
Vibration-based damage detection in civil structures using data-driven methods requires sufficient v...
This paper proposes a novel method suitable for vibration-based damage identification of civil struc...
Vibration-based Structural Health Monitoring (SHM) methods often rely upon vibration responses meas...
Structural Health Monitoring (SHM) via data-driven techniques can be based upon vibrations acquired ...
Vibration-based structural health monitoring represents an efficient way to evaluate structural inte...
Monitoring structural damage is extremely important for sustaining and preserving the service life o...
Ambient excitations applied to structures may lead to non-stationary vibration responses. In such ci...
Monitoring structural damage is extremely important for sustaining and preserving the service life o...
This investigation addresses the problem of damage assessment in mechanical and civil engineering st...
Traditional vibration-based damage detection methods provide structural health information based on ...
Monitoring structural damage is extremely important for sustaining and preserving the service life o...