Add to ORKGAbstract We address the problem of locating a transient source, such as an acoustic emission source, in a plate. We apply time-frequency analysis to the signals detected at a receiver. These highly dispersive and complex waveforms are measured for source-receiver separations ranging from 40 to 180 plate thicknesses and at frequencies such that ten to twenty Rayleigh-Lamb branches are included. Re-assigned, smoothed, pseudo-Wigner-Ville distributions are generated that exhibit the expected sharp ridges in the time-frequency plane, lying along the predicted frequency-time-of-arrival relations. The source-receiver separation can be determined from such plots
Acoustic emission (AE) signals propagate as the extensional and flexural plate modes in thin composi...
A methodology for acoustic source location in plates based on dispersion compensated Lamb waves is p...
This paper proposes an innovative method for identifying the locations of multiple simultaneous acou...
Abstract We address the problem of locating a transient source, such as an acoustic emission source,...
We discuss an automated procedure for determining the separation between a transient acoustic source...
Accurate knowledge of the velocity dispersion of Lamb modes is important for ultrasonic nondestructi...
Alternative methods to first threshold crossing techniques for acoustic emission (AE) source locati...
In Part 2, the same finite-element-generated database of acoustic emission (AE) signals was used, as...
The problem of noise source location in a plate‐like structure using time of flight data recorded at...
Acoustic waves propagate in thin plates as guided or Lamb modes. The velocities of these modes are d...
Acoustic emissions (AE) are transient stress waves generated in a material under load upon damage fo...
Lamb waves have long been recognized to be a valuable tool in the nondestructive testing of plates a...
A strategy for the localization of acoustic emissions (AE) in plates with dispersion and reverberati...
Acoustic emission (AE) technique is a popular tool used for structural health monitoring of civil, m...
One of the biggest challenge for acoustic emission (AE) signal classification on real constructions ...
Acoustic emission (AE) signals propagate as the extensional and flexural plate modes in thin composi...
A methodology for acoustic source location in plates based on dispersion compensated Lamb waves is p...
This paper proposes an innovative method for identifying the locations of multiple simultaneous acou...
Abstract We address the problem of locating a transient source, such as an acoustic emission source,...
We discuss an automated procedure for determining the separation between a transient acoustic source...
Accurate knowledge of the velocity dispersion of Lamb modes is important for ultrasonic nondestructi...
Alternative methods to first threshold crossing techniques for acoustic emission (AE) source locati...
In Part 2, the same finite-element-generated database of acoustic emission (AE) signals was used, as...
The problem of noise source location in a plate‐like structure using time of flight data recorded at...
Acoustic waves propagate in thin plates as guided or Lamb modes. The velocities of these modes are d...
Acoustic emissions (AE) are transient stress waves generated in a material under load upon damage fo...
Lamb waves have long been recognized to be a valuable tool in the nondestructive testing of plates a...
A strategy for the localization of acoustic emissions (AE) in plates with dispersion and reverberati...
Acoustic emission (AE) technique is a popular tool used for structural health monitoring of civil, m...
One of the biggest challenge for acoustic emission (AE) signal classification on real constructions ...
Acoustic emission (AE) signals propagate as the extensional and flexural plate modes in thin composi...
A methodology for acoustic source location in plates based on dispersion compensated Lamb waves is p...
This paper proposes an innovative method for identifying the locations of multiple simultaneous acou...