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15 March 2004 Smart biomechanics strain measurements using 3D image correlation photogrammetry
John Tyson, Timothy Schmidt, Konstantin Galanulis
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Proceedings Volume 5261, Smart Medical and Biomedical Sensor Technology; (2004) https://doi.org/10.1117/12.519194
Event: Optical Technologies for Industrial, Environmental, and Biological Sensing, 2003, Providence, RI, United States
Abstract
Biomechanics place huge challenges on existing measurement technologies for determining the mechanical properties of these materials, as well as just measuring the full-field displacement and strain of these materials. 3D Image Correlation Photogrammetry is proving to be a powerful tool for these measurements, providing full-field 3D measurement of the specimens under normal loadings, even at high-speed. This optical technique is independent of the material that it is measuring, providing a non-contact measurement of any material or geometry type. The results are then directly comparable to finite element models for model verification, iteration and boundary condition determination. This paper discusses the theory of the technology, and its application in deformation and strain measurement of real biomechanic applications, from tissues and organs to ligaments and bones.
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John Tyson, Timothy Schmidt, and Konstantin Galanulis "Smart biomechanics strain measurements using 3D image correlation photogrammetry", Proc. SPIE 5261, Smart Medical and Biomedical Sensor Technology, (15 March 2004); https://doi.org/10.1117/12.519194
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KEYWORDS
3D metrology
3D image processing
Photogrammetry
3D modeling
Bone
Finite element methods
Tissues
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