Experimental Modal Analysis Using Phase Quantities from Phase-Based Motion Processing and Motion Magnification
Author:
Publisher
Springer Science and Business Media LLC
Subject
Mechanical Engineering,Mechanics of Materials
Link
https://link.springer.com/content/pdf/10.1007/s40799-020-00392-7.pdf
Reference19 articles.
1. Wadhwa N, Rubinstein M, Durand F, Freeman WT (2013) Phase-based video motion processing. ACM Trans Graph 32:80:1– 80:10
2. Chen JG, Wadhwa N, Cha Y-J, Durand F, Freeman WT, Buyukozturk O (2015) Modal identification of simple structures with high-speed video using motion magnification. J Sound Vib 345:58–71
3. Molina-Viedma A, Felipe-Sesé L, López-Alba E, Díaz F (2018) High frequency mode shapes characterisation using digital image correlation and phase-based motion magnification. Mech Syst Signal Process 102:245–261
4. Molina-Viedma A, Felipe-Sesé L, López-Alba E, Díaz F (2018) 3D Mode shapes characterisation using phase-based motion magnification in large structures using stereoscopic dic. Mech Syst Signal Process 108:140–155
5. Poozesh P, Sarrafi A, Mao Z, Avitabile P, Niezrecki C (2017) Feasibility of extracting operating shapes using phase-based motion magnification technique and stereo-photogrammetry. J Sound Vib 407:350–366
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