Directional Transducers for Guided Waves generation and sensing are achieved by patterning the piezoelectric material lay-out and the electrodes. The peculiar electrodes’ shape produces a spatial filtering effect which is frequency-dependent, so that a direct relationship can be established between the direction of propagation (wavenumber) and the spectral content of the transmitted/received signal. This kind of transducer has been named Frequency Steerable Acoustic Transducers (FSATs). FSAT dedicated signal processing algorithms enable localization of acoustic events in 2D spaces by processing two differential output of a single device, i.e. using only two acquisition channel thus allowing for a drastic hardware simplification and cost red...
The principal objectives of structural health monitoring (SHM) are the detection, location, and clas...
Frequency-steerable acoustic transducers (FSATs) that allow directional generation or sensing of wav...
The frequency-based beam steering concept effectively supports Guided-Wave-based Structural Health M...
Directional Transducers for Guided Waves generation and sensing are achieved by patterning the piezo...
Drastic hardware simplification and cost reduction of Guided Waves (GWs) based systems can be achiev...
Drastic hardware simplification and cost reduction of Guided Wave (GW) based systems can be achieved...
Guided Waves (GW) inspection is a popular methodology employed by many Structural Health Monitoring ...
Directional inspection using guided waves (GWs) is a convenient approach for Structural Health Moni...
Structural Health Monitoring (SHM) is an emerging area of research associated to improvement of main...
Fabrication and testing of frequency-steerable acoustic transducers (FSATs) enabling directional gui...
none5A frequency-steerable acoustic transducer (FSAT) is employed for imaging of damage in plates th...
The work presented in this thesis investigates novel transducer implementations that take advantage ...
The use of dry-coupled thickness-shear piezoelectric transducers for the generation of ultrasonic gu...
none4siThis paper reports on the fabrication and the experimental characterization of a wavenumber f...
The principal objectives of structural health monitoring (SHM) are the detection, location, and clas...
Frequency-steerable acoustic transducers (FSATs) that allow directional generation or sensing of wav...
The frequency-based beam steering concept effectively supports Guided-Wave-based Structural Health M...
Directional Transducers for Guided Waves generation and sensing are achieved by patterning the piezo...
Drastic hardware simplification and cost reduction of Guided Waves (GWs) based systems can be achiev...
Drastic hardware simplification and cost reduction of Guided Wave (GW) based systems can be achieved...
Guided Waves (GW) inspection is a popular methodology employed by many Structural Health Monitoring ...
Directional inspection using guided waves (GWs) is a convenient approach for Structural Health Moni...
Structural Health Monitoring (SHM) is an emerging area of research associated to improvement of main...
Fabrication and testing of frequency-steerable acoustic transducers (FSATs) enabling directional gui...
none5A frequency-steerable acoustic transducer (FSAT) is employed for imaging of damage in plates th...
The work presented in this thesis investigates novel transducer implementations that take advantage ...
The use of dry-coupled thickness-shear piezoelectric transducers for the generation of ultrasonic gu...
none4siThis paper reports on the fabrication and the experimental characterization of a wavenumber f...
The principal objectives of structural health monitoring (SHM) are the detection, location, and clas...
Frequency-steerable acoustic transducers (FSATs) that allow directional generation or sensing of wav...
The frequency-based beam steering concept effectively supports Guided-Wave-based Structural Health M...