Nicolas Budyn scite author profile

The multi-view total focusing method (TFM) is an imaging algorithm for ultrasonic full matrix array data that exploits internal reflections and mode conversions in the inspected object to create multiple images, the views. Modelling the defect response in multi-view TFM is an essential first step in developing new detection and characterisation methods which exploit the information present in these views. This paper describes a raybased forward model for small two-dimensional defects and compares its results against finite-element simulations and experimental data for the inspection of a side-drilled hole, a notch and a crack. A simpler version of this model, based on a singlefrequency approximation, is derived and compared. A good agreement with the multi-frequency model and a speed-up of several orders of magnitude are achieved.

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Experimental Quantification of Noise in Linear Ultrasonic Imaging

Bevan

Zhang

Budyn

et al. 2019

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

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

et al. 2020

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State-of-the-art ultrasonic non-destructive evaluation (NDE) uses an array to rapidly generate multiple, information-rich views at each test position on a safety-critical component. However, the information for detecting potential defects is dispersed across views, and a typical inspection may involve thousands of test positions. Interpretation requires painstaking analysis by a skilled operator. In this paper, various methods for fusing multi-view data are developed. Compared with any one single view, all methods are shown to yield significant performance gains, which may be related to the general and edge cases for NDE. In the general case, a defect is clearly detectable in at least one individual view, but the view(s) depends on the defect location and orientation. Here, the performance gain from data fusion is mainly the result of the selective use of information from the most appropriate view(s) and fusion provides a means to substantially reduce operator burden. The edge cases are defects that cannot be reliably detected in any one individual view without false alarms. Here, certain fusion methods are shown to enable detection with reduced false alarms. In this context, fusion allows NDE capability to be extended with potential implications for the design and operation of engineering assets.

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Sensitivity images for multi-view ultrasonic array inspection

Budyn

Bevan

Croxford

et al. 2018

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The multi-view total focusing method (TFM) is an imaging technique for ultrasonic full matrix array data that typically exploits ray paths with zero, one or two internal reflections in the inspected object and for all combinations of longitudinal and transverse modes. The fusion of this vast quantity of views is expected to increase the reliability of ultrasonic inspection; however, it is not trivial to determine which views and which areas are the most suited for the detection of a given type and orientation of defect. This work introduces sensitivity images that give the expected response of a defect in any part of the inspected object and for any view. These images are based on a raybased analytical forward model. They can be used to determine which views and which areas lead to the highest probability of detection of the defect. They can also be used for quantitatively analyzing the effects of the parameters of the inspection (probe angle and position, for example) on the overall probability of detection. Finally, they can be used to rescale TFM images so that the different views have comparable amplitudes. This methodology is applied to experimental data and discussed.

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Characterisation of small embedded two-dimensional defects using multi-view Total Focusing Method imaging algorithm

Budyn

Croxford

Bevan

et al. 2021

NDT & E International

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Nicolas Budyn

A Model for Multiview Ultrasonic Array Inspection of Small Two-Dimensional Defects

Experimental Quantification of Noise in Linear Ultrasonic Imaging

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

Sensitivity images for multi-view ultrasonic array inspection

Characterisation of small embedded two-dimensional defects using multi-view Total Focusing Method imaging algorithm

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