New Progress in Application of Laser Doppler Vibration Measurement Technology

Chi Zhang; Shun Wang; Xiangyu Guan; Ruibo Jin

doi:10.3788/LOP202259.1900006

[1] Liu Z C. Doppler and the origin of his effect[J]. Physics, 32, 488-491(2003).

[2] Yeh Y, Cummins H Z. Localized fluid flow measurements with an He-Ne laser spectrometer[J]. Applied Physics Letters, 4, 176-178(1964).

[3] Massey G A. An optical heterodyne ultrasonic image converter[J]. Proceedings of the IEEE, 56, 2157-2161(1968).

[4] Kroschel K[M]. Laser Doppler vibrometry for non-contact diagnostics(2020).

[5] Halliwell N A. The laser torsional vibrometer: a step forward in rotating machinery diagnostics[J]. Journal of Sound and Vibration, 190, 399-418(1996).

[6] Chen H K. Research on signal processing and hardware implementation of laser Doppler micro vibration[D], 4(2020).

[7] Rothberg S J, Allen M S, Castellini P et al. An international review of laser Doppler vibrometry: making light work of vibration measurement[J]. Optics and Lasers in Engineering, 99, 11-22(2017).

[8] Abbas S H, Jang J K, Kim D H et al. Underwater vibration analysis method for rotating propeller blades using laser Doppler vibrometer[J]. Optics and Lasers in Engineering, 132, 106133(2020).

[9] Li W T, Nie X M, Zhou J. Method for establishing new integrated navigation system based on two-dimensional laser Doppler velocimeter[J]. Chinese Journal of Lasers, 47, 0310001(2020).

[10] Wu Z P, Huang D P, Guo K et al. Optical cable pitch detection method based on machine vision[J]. Laser & Optoelectronics Progress, 57, 081505(2020).

[11] Jang J, Liu P P, Kim B et al. Silicon wafer crack detection using nonlinear ultrasonic modulation induced by high repetition rate pulse laser[J]. Optics and Lasers in Engineering, 129, 106074(2020).

[12] Peng S P, Wu S S, Li Y Y et al. All-fiber monostatic pulsed laser Doppler vibrometer: a digital signal processing method to eliminate cochannel interference[J]. Optics & Laser Technology, 124, 105952(2020).

[13] Tomasini E P, Castellini P[M]. Laser Doppler vibrometry(2020).

[14] Optomet. Measurement principle-laser vibrometry[EB/OL]. https://www.optomet.com/technology/measurement-principle/

[15] Yan S P. A laser Doppler vibration meter for vibration measurement[J]. Modern Scientific Instruments, 41-42(1991).

[16] Wang Q, Zhu J, Dai J et al. Research on blade modal testing method based on 3D scanning laser Doppler vibration measurement technology[EB/OL]. https://www.clausiuspress.com/conference/article/artId/5409.html

[17] Sugimoto T, Sugimoto K, Kosuge N et al. High-speed noncontact acoustic inspection method for civil engineering structure using multitone burst wave[J]. Japanese Journal of Applied-Physics, 56, 07JC10(2017).

[18] Klun M, Zupan D, Lopatič J et al. On the application of laser vibrometry to perform structural health monitoring in non-stationary conditions of a hydropower dam[J]. Sensors, 19, 3811(2019).

[19] Zhang W, Lü Z Z, Xiong S L. Nondestructive quality evaluation of agro-products using acoustic vibration methods: a review[J]. Critical Reviews in Food Science and Nutrition, 58, 2386-2397(2018).

[20] Jie D F, Wei X. Review on the recent progress of non-destructive detection technology for internal quality of watermelon[J]. Computers and Electronics in Agriculture, 151, 156-164(2018).

[21] Landahl S, Terry L A. Non-destructive discrimination of avocado fruit ripeness using laser Doppler vibrometry[J]. Biosystems Engineering, 194, 251-260(2020).

[22] Zhen O P, Hashim N, Maringgal B. Quality evaluation of mango using non-destructive approaches: a review[J]. Journal of Agricultural and Food Engineering, 1, 1-8(2020).

[23] Cui D, Gao Z M, Zhang W et al. The use of a laser Doppler vibrometer to assess watermelon firmness[J]. Computers and Electronics in Agriculture, 112, 116-120(2015).

[24] Ding C Q, Wu H L, Feng Z et al. Online assessment of pear firmness by acoustic vibration analysis[J]. Postharvest Biology and Technology, 160, 111042(2020).

[25] Kunimoto Y, Hasegawa K, Arii S et al. Sequential motion of the ossicular chain measured by laser Doppler vibrometry[J]. Acta Oto-Laryngologica, 137, 1233-1237(2017).

[26] Mancini V, Tommasin D, Li Y L et al. Detecting carotid stenosis from skin vibrations using Laser Doppler vibrometry-an in vitro proof-of-concept[J]. PLoS One, 14, e0218317(2019).

[27] Kong L Q, Wu Y H, Pang Z G et al. Measurement of heart rate based on ballistocardiography[J]. Chinese Journal of Lasers, 47, 0207042(2020).

[28] Antognoli L, Moccia S, Migliorelli L et al. Heartbeat detection by laser Doppler vibrometry and machine learning[J]. Sensors, 20, 5362(2020).

[29] Casacanditella L, Cosoli G, Ceravolo M G et al. Non-contact measurement of tremor for the characterisation of Parkinsonian individuals: comparison between Kinect and Laser Doppler vibrometer[J]. Journal of Physics: Conference Series, 882, 012002(2017).

[30] Pieczonka Ł, Ambroziński Ł, Staszewski W J et al. Damage detection in composite panels based on mode-converted Lamb waves sensed using 3D laser scanning vibrometer[J]. Optics and Lasers in Engineering, 99, 80-87(2017).