Computer Vision & Laser Vibrometry, Volume 6: Proceedings of the 41st IMAC, A Conference and Exposition on Structural Dynamics, 2023, the sixth volume of ten from the Conference brings together contributions to this important area of research and engineering. The collection presents early findings and case studies on fundamental and applied aspects of Computer Vision, Laser Vibrometry and Structural Health Monitoring, including papers on:
- Novel Techniques
- Optical Methods,
- Scanning LDV Methods
- Photogrammetry & DIC
- Structural Health Monitoring
Chapter 1 Optical Motion Magnification: A Comparative Study and
Application for Vibration Analysis.
Chapter 2 - To the Moon! Space Launch
System Modal Testing with Video and Motion Magnification.
Chapter 3 Effects
of Image Pair Processing Styles on Phase-Based Motion Extraction.
Chapter 4
Experiment-based optical full-field receptances in the approximation of sound
radiation from a vibrating plate.
Chapter 5 Measurements of panel vibration
with DIC and LDV imaged through a Mach 5 flow. - Chapter 6 Experimental
quantification of sensor-based stereocameras extrinsic parameters
calibration. - Chapter 7 Towards camera-based monitoring of abdominal aortic
aneurysms[ AA].
Chapter 8 Measuring 3D vibrations amplitude with a single
camera and a model of the vibrating structure.
Chapter 9 Risk tolerance
mapping in dynamically loaded structures as excitation dependency by means of
full-field receptances.
Chapter 10 Lightweight Internal Damage Segmentation
using Thermography with and without Attention Based Generative Adversarial
Network.
Chapter 11 A Novel Framework for the Dynamic Characterization of
Civil Structures Using 3D Terrestrial Laser Scanners.
Chapter 12
Orthorectification for Dense Pixel-Level Spatial Calibration for Video-Based
Structural Dynamics.
Chapter 13 Digital Twins for Photorealistic Event-Based
Structural Dynamics.
Chapter 14 Multi-path vibrometer based strain
measurement technique for Very High Cycle Fatigue (VHCF) testing.
Chapter 15
Measurement of Airborne Ultrasound Using Laser Doppler Vibrometer.
Chapter
16 Modal Identification of a Turbine Blade with a Curved Surface under Random
Excitation by a 3D CSLDV System and the Extended Demodulation Method.-
Chapter 17 Operational modal analysis of a rotating structure using
image-based tracking continuously scanning laser Doppler vibrometry via a
novel edge detection method.
Chapter 18 Detection of Missing Rail Fasteners
Using Train-Induced Ultrasonic Guided Waves:A Numerical Study.
Chapter 19
Dynamic Mode Decomposition for Resonant Frequency Identification of
Oscillating Structures.
Chapter 20 Time-inferred autoencoder for
construction and prediction of spatio-temporal characteristics from dynamic
systems using optical data.
Chapter 21 Rotational Operating Deflection
Shapes Analysis with High Speed Camera.
Javad BaqersadKettering University, MI, USA | jbaqersad@kettering.edu;Dario Di MaioUniversity of Twente, Netherlands | d.dimaio@utwente.nl
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