none6A novel time-frequency procedure is presented in this paper for guided wave (GW) propagation analysis in structure health monitoring (SHM) applications.The proposed approach combines the Warped Frequency Transform (WFT) with a Basis Pursuit algorithm to generate a sparse yet accurate time-frequency representation of the acquired signals even in the case of multi-modal dispersive propagation associated to broadband excitation of the waveguide. This is obtained through over complete dictionaries composed by optimized atoms which are designed to match the spectro-temporal structure of the various propagating modes.The Warped Basis Pursuit (W-BP) decomposition of several acquired waveforms results in distance signals that can be combined t...
Performance of defect imaging procedures based on scattered guided waves (GW) acquired by a network ...
Guided waves (GWs) have characteristic dispersive time-frequency representations (TFRs). Unfortunate...
Structural Health Monitoring (SHM) of 2D areas can be performed bycombining time waveforms acquired ...
none6A novel time-frequency procedure is presented in this paper for guided wave (GW) propagation an...
This paper presents a novel time-frequency procedure based on the warped frequency transform (WFT) t...
The characterization of the dispersive behaviour of stress guided waves (GWs) from a time transient ...
Critical challenges related to Guided Wave (GW) inspection for Structural Health Monitoring (SHM) in...
To improve the defect detectability of Lamb wave inspection systems, the application of non-linear s...
In this work a new time-frequency procedure for the extraction of multimodal and dispersive guided w...
To improve the defect detectability of Lamb wave inspection systems, application of non-linear signa...
none4Guided Wave (GW) testing for Structural Health Monitoring (SHM) iscomplicated by dispersion in ...
none3siUltrasonic Guided Waves (GW) are employed by many Structural Health Monitoring (SHM) systems....
Performance of defect imaging procedures based on scattered guided waves (GW) acquired by a network ...
Guided waves (GWs) have characteristic dispersive time-frequency representations (TFRs). Unfortunate...
Structural Health Monitoring (SHM) of 2D areas can be performed bycombining time waveforms acquired ...
none6A novel time-frequency procedure is presented in this paper for guided wave (GW) propagation an...
This paper presents a novel time-frequency procedure based on the warped frequency transform (WFT) t...
The characterization of the dispersive behaviour of stress guided waves (GWs) from a time transient ...
Critical challenges related to Guided Wave (GW) inspection for Structural Health Monitoring (SHM) in...
To improve the defect detectability of Lamb wave inspection systems, the application of non-linear s...
In this work a new time-frequency procedure for the extraction of multimodal and dispersive guided w...
To improve the defect detectability of Lamb wave inspection systems, application of non-linear signa...
none4Guided Wave (GW) testing for Structural Health Monitoring (SHM) iscomplicated by dispersion in ...
none3siUltrasonic Guided Waves (GW) are employed by many Structural Health Monitoring (SHM) systems....
Performance of defect imaging procedures based on scattered guided waves (GW) acquired by a network ...
Guided waves (GWs) have characteristic dispersive time-frequency representations (TFRs). Unfortunate...
Structural Health Monitoring (SHM) of 2D areas can be performed bycombining time waveforms acquired ...