I. Introduction

Noncontact acoustic inspection (NCAI) method using acoustic irradiation induced vibration and a high-sensitivity scanning laser Doppler vibrometer (SLDV) is a method for long-distance, noncontact inspection of internal defects (cracks and cavities) in the surface layer of concrete structures, using the same flexural resonance phenomenon as that used in the tapping inspection [1]–[22]. On the other hand, with the declining birthrate and aging population, there is a need for labor-saving and automation in inspection work. Therefore, there has been an increasing demand for the possibility of realizing moving measurement using the NCAI method, even at low speeds. However, an SLDV which have a mechanism to scan the measurement area in an area, are not suitable for moving measurement because they are vulnerable to vibration and are basically designed for fixed installation. Since the laser Doppler vibrometer (LDV) is a measurement device using the Doppler effect, if the laser beam can be incident perpendicularly to the surface to be measured, it may be possible to detect surface vibration caused by sound wave irradiation even while moving. Then, a fundamental verification experiment was conducted to see if moving measurement using the NCAI method is feasible using several LDVs without a scanning mechanism.