Fusion of multi-view ultrasonic data for increased detection performance in non-destructive evaluation

Wilcox, Paul D.; Croxford, Anthony J.; Budyn, Nicolas; Bevan, Rhodri L. T.; Zhang, Jie; Kashubin, Artem; Cawley, P.

doi:10.1098/rspa.2020.0086

Cited by 18 publications

(11 citation statements)

References 22 publications

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“…The images presented in the results section clearly demonstrate that high quality ultrasonic imaging can be achieved by using the TFM algorithm, both with shear and longitudinal modes. In the future, these modes, as well as images from mode converted waves could be used to perform data fusion [15], [18]. By performing this data fusion, the combined image has the potential for more accurate detection and characterization of the defects in the resulting image, minimising the effect of blind spots associated with individual wave modes [15] and further reducing the requirement for signal averaging during data acquisition.…”

Section: Discussionmentioning

confidence: 99%

Remote Ultrasonic Imaging of a Wire Arc Additive Manufactured Ti-6AI-4V Component using Laser Induced Phased Array

Lukács

Davis

Stratoudaki

et al. 2021

2021 IEEE International Instrumentation and Measurement Technology Conference (I2MTC)

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Additive manufacturing (AM) has been revolutionizing the manufacturing industry due to its ability to significantly reduce waste and produce components with intricate shapes. Laser Ultrasonics (LU) is a non-contact and couplant free method to generate and detect ultrasound. LU can accommodate complex component shapes; thus, it has the potential to provide a reliable in-process inspection method for AM components. In recent years the development of Laser Induced Phased Arrays (LIPAs) helped overcome the inherently low signal amplitudes of LU at the non-destructive, thermoelastic regime. In this paper, the Full Matrix Capture data acquisition method is used and a LIPA of 68 elements is synthesized in post processing. The Total Focusing Method imaging algorithm is applied for ultrasonic imaging. The technique is demonstrated on a highly scattering titanium alloy Wire Arc Additive Manufactured (WAAM) component producing high quality ultrasonic images, accurately imaging defects at depths up to 10mm below the inspection surface.

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Section: Discussionmentioning

confidence: 99%

Remote Ultrasonic Imaging of a Wire Arc Additive Manufactured Ti-6AI-4V Component using Laser Induced Phased Array

Lukács

Davis

Stratoudaki

et al. 2021

2021 IEEE International Instrumentation and Measurement Technology Conference (I2MTC)

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“…This would probably require further measurement locations to obtain full angular coverage [53]. We note here that similar concepts have been explored in tomography [19][20][21] and in array imaging [54,55]. In the array imaging case, the measured angular reflectivity signature is compared with a pre-computed database of scattering responses.…”

Section: (F) Other Implementation Issuesmentioning

confidence: 99%

Strategies for guided acoustic wave inspection using mobile robots

et al. 2022

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Continuous non-destructive monitoring of large-scale structures is extremely challenging with traditional manual inspections. In this paper, we explore possible strategies that a collection of inspection robots could adopt to address this challenge. We envision the continuous inspection of a plate performed by multiple robots or a single robot that combines measurements from multiple locations. The robots use guided ultrasonic waves to interrogate a localized region for defects such as cracking or corrosion. In the detection stage, the receiver operating characteristic defines a detection zone in which a defect is thought to be present. In the localization stage, further measurements are made to locate the defect within this zone to a certain accuracy. We then address the question of what additional measurements are needed to achieve a given level of performance in the presence of uncertainty in robot locations? We explore this problem with Monte Carlo simulations that reveal the compromise between number of robots and performance in terms of defect location accuracy. In an experimental validation example on an aluminium plate, we show that six measurements arranged in a pentagon with a central measurement point leads to localization errors of similar magnitude to the uncertainty in sensor location.

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“…Ultrasonic imaging emerge as the preferred (or the only feasible) sensing modality in many applications. Laser ultrasonics, in particular, has come under the spotlight for enabling noncontact actuation and measurement [48,50,24]. This is crucial for high-fidelity, in-situ monitoring of complex components and (e.g., additive manufacturing) processes which may be achieved through careful integration of state-of-the-art instrumentation and advanced data analytic solutions capable of fast ultrasonic tomography of progressive variations in uncertain or unknown environments.…”

Section: Introductionmentioning

confidence: 99%

Ultrasonic imaging in highly heterogeneous backgrounds

Pourahmadian,

Haddar

2022

Preprint

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This work formally investigates the differential evolution indicators as a tool for ultrasonic tracking of elastic transformation and fracturing in randomly heterogeneous solids. Within the framework of periodic sensing, it is assumed that the background at time t • contains (i) a multiply connected set of viscoelastic, anisotropic, and piece-wise homogeneous inclusions, and (ii) a union of possibly disjoint fractures and pores. The support, material properties, and interfacial condition of scatterers in (i) and (ii) are unknown, while elastic constants of the matrix are provided. The domain undergoes progressive variations of arbitrary chemomechanical origins such that its geometric configuration and elastic properties at future times are distinct. At every sensing step t • , t 1 , . . ., multi-modal incidents are generated by a set of boundary excitations, and the resulting scattered fields are captured over the observation surface. The test data are then used to construct a sequence of wavefront densities by solving the spectral scattering equation. The incident fields affiliated with distinct pairs of obtained wavefronts are analyzed over the stationary and evolving scatterers for a suit of geometric and elastic evolution scenarios entailing both interfacial and volumetric transformations. The main theorem establishes the invariance of pertinent incident fields at the loci of static fractures and inclusions between a given pair of time steps, while certifying variation of the same fields over the modified regions. These results furnish a basis for theoretical justification of differential evolution indicators for imaging in complex composites which, in turn, enable the exclusive tomography of evolution in a background endowed with many unknown features.

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Fusion of multi-view ultrasonic data for increased detection performance in non-destructive evaluation

Cited by 18 publications

References 22 publications

Remote Ultrasonic Imaging of a Wire Arc Additive Manufactured Ti-6AI-4V Component using Laser Induced Phased Array

Remote Ultrasonic Imaging of a Wire Arc Additive Manufactured Ti-6AI-4V Component using Laser Induced Phased Array

Strategies for guided acoustic wave inspection using mobile robots

Ultrasonic imaging in highly heterogeneous backgrounds

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