Journal
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
Volume 114, Issue 44, Pages 11639-11644Publisher
NATL ACAD SCIENCES
DOI: 10.1073/pnas.1703715114
Keywords
visualization; motion; image processing
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Funding
- National Institutes of Health [R01-DC00238]
- National Science Foundation [CGV-1111415, CGV-1122374]
- Quanta Computer
- Shell Research
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Although the human visual system is remarkable at perceiving and interpreting motions, it has limited sensitivity, and we can not see motions that are smaller than some threshold. Although difficult to visualize, tiny motions below this threshold are important and can reveal physical mechanisms, or be precursors to large motions in the case of mechanical failure. Here, we present a motion microscope, a computational tool that quantifies tiny motions in videos and then visualizes them by producing a new video in which the motions are made large enough to see. Three scientific visualizations are shown, spanning macro scopic to nanoscopic length scales. They are the resonant vibrations of a bridge demonstrating simultaneous spatial and temporal modal analysis, micrometer vibrations of a metamaterial demonstrating wave propagation through an elastic matrix with embedded resonating units, and nanometer motions of an extra cellular tissue found in the inner ear demonstrating a mechanism of frequency separation in hearing. In these instances, the motion microscope uncovers hidden dynamics over a variety of length scales, leading to the discovery of previously unknown phenomena.
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