PSI - Issue 82

Faezeh Jafari et al. / Procedia Structural Integrity 82 (2026) 51–57 F. Jafari and S. Dorafshan / Structural Integrity Procedia 00 (2026) 000–000

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Dinh, K., Gucunski, N., 2021. Factors affecting the detectability of concrete delamination in GPR images. Construction and Building Materials 274, 121837. Epp, T., Svecova, D., Cha, Y.J., 2018. Semi-automated air-coupled impact-echo method for large-scale parkade structure. Sensors 18(4), 1018. Gucunski, N., Romero, F.A., Shokouhi, P., Makresias, J., 2005. Complementary impact echo and ground penetrating radar evaluation of bridge decks on I-84 interchange in Connecticut. In: Earthquake Engineering and Soil Dynamics, pp. 1–10. Jafari, F., Dorafshan, S., 2021. Bridge inspection and defect recognition using impact echo data, probability, and naive Bayes classifiers. Infrastructures 6(9), 132. Jafari, F., Dorafshan, S., 2022. Comparison between supervised and unsupervised learning for autonomous delamination detection using impact echo. Remote Sensing 14(24), 6307. Kee, S.H., Gucunski, N., 2016. Interpretation of flexural vibration modes from impact-echo testing. Journal of Infrastructure Systems 22(3), 04016009. Medina, R., Bayón, A., 2010. Elastic constants of a plate from impact-echo resonance and Rayleigh wave velocity. Journal of Sound and Vibration 329(11), 2114–2126. Sun, H., Pashoutani, S., Zhu, J., 2018. Nondestructive evaluation of concrete bridge decks with automated acoustic scanning system and ground penetrating radar. Sensors 18(6), 1955. Yehia, S., Abudayyeh, O., Nabulsi, S., Abdelqader, I., 2005. A comparison between ground penetrating radar (GPR) and impact echo (IE) for detection of common concrete bridge deck defects. In: Computing in Civil Engineering 2005, pp. 1–7.