Special Topics in Structural Dynamics & Experimental Techniques, Volume 5: Proceedings of the 40th MAC, A Conference and Exposition on Structural Dynamics, 2022, the fifth volume of nine 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 Structural
Dynamics, including papers on:
Analytical Methods
Emerging Technologies for Structural Dynamics
Engineering Extremes
Experimental Techniques
Finite Element Techniques
Chapter
1. Multi-Cellular Damping for Composite Material Applications.-
Chapter
2. Novel Data Acquisition Utilising a Flask Python Digital Twin
Operational Platform.
Chapter
3. Model Validation for Combined Inertial
Acceleration and Vibration Environments.
Chapter
4. Modal Testing with
Piezoelectric Stack Actuators.
Chapter
5. Generative Adversarial Networks
for Labelled Vibration Data Generation.
Chapter
6. Validation of an Impulse
Response Filter for Impact Force Reconstruction on a Hammer Drill.
Chapter
7. Determination of Nonlinear Joint Forces and Nonlinear Identification of
Jointed Connections Using FRFs.
Chapter
8. Investigation of Using
Log-Spectrum Averaging (Cepstral Averaging) for Blind Reconstruction of an
Unknown Impact Input Force.
Chapter
9. The Application of a Force
Identification Method Based on Particle Swarm Optimization to Compression
Steel Bars.
Chapter
10. Degree of Freedom Selection Approaches for MIMO
Vibration Test Design.
Chapter
11. Vibration Mitigation of Bladed Structures
using Piezoelectric Digital Vibration Absorbers.
Chapter
12. An Open-source
Automatic Modal Hammer Suitable for Studying Nonlinear Dynamical Systems.-
Chapter
13. Crack Diagnostics and Prognostics in Miter Gates Based on a
Local-Global Model and Image Observations.
Chapter
14. A Hierarchical
Filtering Approach for Online Damage Detection using Parametric Reduced-order
Models.
Chapter
15. A Tutorial on An Open-Source Python Package for
Frequency Based Substructuring and Transfer Path Analysis.
Chapter
16.
Miniature Underwater Robot An Experimental Case Study.
Chapter
17.
Benefits of Using a Portable Coordinate Measurement Machine to Measure a
Modal Test Geometry.
Matthew Allen, Bigham Young University, UT, USA; Sheyda Davaria, Virginia Technological University, VA, USA; Ben Davis, University of Georgia, GA, USA.
