Evaluating the Properties of Railway Ballast Using Spectral Analysis of Ground Penetrating Radar Signal Based on Optimized Variational Mode Decomposition

Zatar, Wael; Hua, Xia; Chen, Gang; Nguyen, Hai Dang; Nghiem, Hien Manh

doi:10.1155/2022/2840318

Cited by 4 publications

(2 citation statements)

References 25 publications

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“…The standard SAFT's results can be further improved by introducing a few developments, such as calibrating the sagging in the resulting images due to the long wavelength of the pulse [33,34], the extended SAFT methods and applications [35][36][37][38][39][40][41][42], the AI-based algorithms applications [43,44], and ultrasonic image by using both linear and non-linear wave properties [45].…”

Section: 𝑍 = 𝐶mentioning

confidence: 99%

Ultrasonic Pulse-Echo Signals for Quantitative Assessment of Reinforced Concrete Anomalies

Zatar,

Chen,

Nghiem

et al. 2024

Applied Sciences

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This paper presents a study to accurately evaluate defects in concrete decks using ultrasonic pulse-echo signals. A reinforced concrete deck with void defects was designed and evaluated for validation, and a commercial ultrasonic pulse-echo (UPE) device was used to obtain the 2D images of the void defect inside the deck. The UPE image is based on the ultrasonic shear-wave test method and an extended synthetic aperture focusing technique (SAFT). To enhance the accuracy of the defect location in the SAFT imaging, the recorded A-scan data from UPE was analyzed using an advanced denoising approach and defect echo peak extraction, which are based on empirical modal decomposition, Hurst exponent characterization, and Hilbert envelope estimation. The results demonstrated that the location and depth of the void defect in the deck can be accurately assessed by using the developed approach. The new method provides quantitative information of the anomalies inside the deck, which can be used to calibrate the qualitative images of UPC devices with the SAFT.

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Section: 𝑍 = 𝐶mentioning

confidence: 99%

Ultrasonic Pulse-Echo Signals for Quantitative Assessment of Reinforced Concrete Anomalies

Zatar,

Chen,

Nghiem

et al. 2024

Applied Sciences

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“…In this regard, one of the procedures that allows this process to be carried out is the spectral analysis of the GPR reflections [5][6][7][8]. This spectral content is largely influenced by the electromagnetic properties of the materials of the analyzed medium, causing a variation in frequencies along the traces, resulting in a spectral shift towards frequencies different from those emitted [9].…”

Section: Introductionmentioning

confidence: 99%

Optimization of Dominant Frequency and Bandwidth Analysis in Multi-Frequency 3D GPR Signals to Identify Contaminated Areas

Paredes-Palacios

Mota-Toledo²,

Biosca

et al. 2022

Sensors

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Ground-penetrating radar (GPR) has been widely used in investigations of contaminated areas because of its sensitivity to variations associated with the nature of pore fluids. However, most of the studies were usually based on the visual interpretation of radargrams or on a time domain amplitude analysis. In this work, we propose a methodology that consists of analyzing the spectral content of the signal recorded in multi-frequency 3D GPR profiles. A remarkable advantage of this type of antenna is its step-frequency system, which provides a much wider emission spectrum than the one corresponding to conventional single-frequency antennas. From the data in the frequency domain, the dominant frequency and bandwidth were calculated as parameters whose variation could be related to the presence of light non-aqueous phase liquid (LNAPL) in the subsurface. By analyzing the variations of these two parameters simultaneously, we were able to delimit the contaminated zones in a case study, associating them with a significant shift of the frequency spectrum with respect to the average of the study area. Finally, as a validation method of the proposed methodology, the results of the frequency analysis were compared with resistivity data obtained with an electromagnetic conductivity meter, showing a very good correlation between the results.

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Enhancing radar tracking accuracy using combined Hilbert transform and proximal gradient methods

Jabbar,

Jabbar

et al. 2024

Results in Engineering

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Evaluating the Properties of Railway Ballast Using Spectral Analysis of Ground Penetrating Radar Signal Based on Optimized Variational Mode Decomposition

Cited by 4 publications

References 25 publications

Ultrasonic Pulse-Echo Signals for Quantitative Assessment of Reinforced Concrete Anomalies

Ultrasonic Pulse-Echo Signals for Quantitative Assessment of Reinforced Concrete Anomalies

Optimization of Dominant Frequency and Bandwidth Analysis in Multi-Frequency 3D GPR Signals to Identify Contaminated Areas

Enhancing radar tracking accuracy using combined Hilbert transform and proximal gradient methods

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