Worawit Padungsriborworn scite author profile

In ultrasonic testing, Synthetic Aperture Focusing Technique (SAFT) is a signal processing technique to produce flaw images by superposing of A-scan waveforms. With rapid development in computing technology, recently, SAFT has become easier in data acquisition and faster in computation. However, additional signal processing techniques may be integrated into SAFT to get ultrasound image with higher resolution. Wave theory is one of the most important keys in SAFT improvement since it can lead to better understanding of ultrasonic wave phenomena. In this paper, the approximate wave solution (AWS) in fluid-solid two-phase media is used to compute the beam radiations inside target of inspection. Multiplying A-scan waveforms by the ultrasonic beam radiations obtained by AWS, wave diffraction characteristics which are spatial functions between transducer and target are incorporated into the SAFT. The performance of the improved SAFT, so-called AWS-SAFT, is experimentally tested in ultrasonic imaging of a sidedrilled hole (SDH) in an immersed rod. It is shown that AWS-SAFT can improve a flaw image, especially in that a flaw image with narrower side lobes is obtained, and arti-B Worawit Padungsriborworn facts due to L-mode are eliminated in T-mode SAFT images. Eventually, an efficient way in using AWS-SAFT to obtain an accurate ultrasound image of an immersed rod with SDHs is proposed and tested.

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Applicability of Effective Region Technique in Ultrasonic Imaging by Aws-Saft

Padungsriborworn

Furukawa

Hirose

2015

Journal of JSCE

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In ultrasonic testing, SAFT (Synthetic Aperture Focusing Technique) is a signal processing technique used to reconstruct flaw images by the superposition of A-scan waveforms. However, an additional signal processing technique may also be integrated into SAFT algorithms to get clearer ultrasound images. Wave theory is one of the most significant keys in SAFT improvement because it can lead to a better understanding of the wave phenomenon. In this paper, approximate wave solution (AWS) based on a stationary phase method is used to calculate beam radiations inside a target of inspection. Multiplying A-scan waveforms by the ultrasonic beam radiations computed from the AWS, wave diffraction characteristics that are spatial functions between a transducer and a target are incorporated into the SAFT. Moreover, the AWS can be used to predict the Effective Region (ER) where high imaging capability can be obtained. The performance of the improved SAFT, namely AWS-SAFT, and the ER technique are experimentally tested in ultrasonic imaging for a side-drilled hole (SDH) in a steel plate. As a visualizing aid, Structural Similarity (SSIM) index is introduced and Structural Similarity Index Map (SSIM-MAP) is proposed instead of a SAFT image. It is shown that SSIM-MAP can improve a flaw image, especially in that the image is more focused on the location of a flaw, and artifacts due to a longitudinal wave mode are eliminated in a transverse wave mode SAFT image. The ER, where a high contrast flaw image can be definitely obtained, is defined quantitatively in advance of SAFT imaging. The preliminary study for the use of the proposed technique in a real problem is demonstrated using ultrasound imaging of a bottom defect of a steel plate to demonstrate the application of AWS-SAFT and ER.

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Worawit Padungsriborworn

A Study on Automatic Flaw Detection using MSSIM in Ultrasound Imaging of Steel Plate

Improvement of SAFT by Implementation of Approximate Wave Solution in Fluid-Solid Two-Phase Media: A Case Study on Imaging of Aluminum Rod with Side-Drilled Holes

Applicability of Effective Region Technique in Ultrasonic Imaging by Aws-Saft

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