Digital image correlation (DIC) is a method of using digital images
to calculate two-dimensional displacement and deformation or for
stereo systems three-dimensional shape, displacement, and deformation.
While almost any imaging system can be used with DIC, there are some
important challenges when working with the technique in high- and
ultra-high-speed applications. This article discusses three of these
challenges: camera sensor technology, camera frame rate, and camera
motion mitigation. Potential solutions are treated via three demonstration
experiments showing the successful application of high-speed DIC
for dynamic events. The application and practice of DIC at high speeds,
rather than the experimental results themselves, provide the main
thrust of the discussion
%0 Journal Article
%1 Reu2008
%A Reu, P. L.
%A Miller, T. J.
%D 2008
%I Professional Engineering Publishing
%J The Journal of Strain Analysis for Engineering Design
%K correlation, digital high-speed image imaging, photography speckle ultra-high-speed
%N 8
%P 673--688
%R 10.1243/03093247JSA414
%T The application of high-speed digital image correlation
%V 43
%X Digital image correlation (DIC) is a method of using digital images
to calculate two-dimensional displacement and deformation or for
stereo systems three-dimensional shape, displacement, and deformation.
While almost any imaging system can be used with DIC, there are some
important challenges when working with the technique in high- and
ultra-high-speed applications. This article discusses three of these
challenges: camera sensor technology, camera frame rate, and camera
motion mitigation. Potential solutions are treated via three demonstration
experiments showing the successful application of high-speed DIC
for dynamic events. The application and practice of DIC at high speeds,
rather than the experimental results themselves, provide the main
thrust of the discussion
@article{Reu2008,
abstract = {Digital image correlation (DIC) is a method of using digital images
to calculate two-dimensional displacement and deformation or for
stereo systems three-dimensional shape, displacement, and deformation.
While almost any imaging system can be used with DIC, there are some
important challenges when working with the technique in high- and
ultra-high-speed applications. This article discusses three of these
challenges: camera sensor technology, camera frame rate, and camera
motion mitigation. Potential solutions are treated via three demonstration
experiments showing the successful application of high-speed DIC
for dynamic events. The application and practice of DIC at high speeds,
rather than the experimental results themselves, provide the main
thrust of the discussion},
added-at = {2009-08-01T18:40:48.000+0200},
author = {Reu, P. L. and Miller, T. J.},
biburl = {https://www.bibsonomy.org/bibtex/2c723a14f2112d97364e832cd6b61fc46/jaksonmv},
citeulike-article-id = {3452623},
doi = {10.1243/03093247JSA414},
interhash = {b1b3d0cd2d497fe62bf78ab86200ecec},
intrahash = {c723a14f2112d97364e832cd6b61fc46},
issn = {0309-3247},
journal = {The Journal of Strain Analysis for Engineering Design},
keywords = {correlation, digital high-speed image imaging, photography speckle ultra-high-speed},
number = 8,
pages = {673--688},
posted-at = {2008-10-27 08:46:34},
publisher = {Professional Engineering Publishing},
timestamp = {2009-08-01T18:40:55.000+0200},
title = {The application of high-speed digital image correlation},
volume = 43,
year = 2008
}