%0 Conference Paper %1 cho1988digital %A Cho, Y-C %B Applications of Digital Image Processing XI %D 1988 %E Tescher, Andrew G. %I SPIE %K 68u10-image-processing 76-05-fluid-mechanics-experimental-work 76t20-suspensions piv %R 10.1117/12.948467 %T Digital Image Velocimetry %U https://www.spiedigitallibrary.org/conference-proceedings-of-spie/0974/1/Digital-Image-Velocimetry/10.1117/12.948467.short?SSO=1 %V 0974 %X A new technique, digital image velocimetry, is proposed for the measurement of instantaneous velocity fields of time dependent flows. A time sequence of single-exposure images of seed particles are captured with a high-speed camera, and a finite number of the single-exposure images are sampled within a prescribed period in time. The sampled images are then digitized on an image processor, enhanced, and superimposed to construct an image which is equivalent to a multiple exposure image used in both laser speckle velocimetry and particle image velocimetry. The superimposed image and a single-exposure image are digitally Fourier transformed for extraction of information on the velocity field. A great enhancement of the dynamic range of the velocity measurement is accomplished through the new technique by manipulating the Fourier transform of both the single-exposure image and the superimposed image. Also the direction of the velocity vector is unequivocally determined. With the use of a high-speed video camera, the whole process from image acquisition to velocity determination can be carried out electronically; thus this technique can be developed into a real-time capability.

@inproceedings{cho1988digital, abstract = {A new technique, digital image velocimetry, is proposed for the measurement of instantaneous velocity fields of time dependent flows. A time sequence of single-exposure images of seed particles are captured with a high-speed camera, and a finite number of the single-exposure images are sampled within a prescribed period in time. The sampled images are then digitized on an image processor, enhanced, and superimposed to construct an image which is equivalent to a multiple exposure image used in both laser speckle velocimetry and particle image velocimetry. The superimposed image and a single-exposure image are digitally Fourier transformed for extraction of information on the velocity field. A great enhancement of the dynamic range of the velocity measurement is accomplished through the new technique by manipulating the Fourier transform of both the single-exposure image and the superimposed image. Also the direction of the velocity vector is unequivocally determined. With the use of a high-speed video camera, the whole process from image acquisition to velocity determination can be carried out electronically; thus this technique can be developed into a real-time capability.}, added-at = {2023-08-17T07:44:03.000+0200}, author = {Cho, Y-C}, biburl = {https://www.bibsonomy.org/bibtex/2de2275d23069162c7c8aaabb07952b2a/gdmcbain}, booktitle = {Applications of Digital Image Processing XI}, doi = {10.1117/12.948467}, editor = {Tescher, Andrew G.}, eventtitle = {32nd Annual International Technical Symposium on Optical and Optoelectronic Applied Science and Engineering}, interhash = {d0a463cef95d5d70a0d556856913708d}, intrahash = {de2275d23069162c7c8aaabb07952b2a}, keywords = {68u10-image-processing 76-05-fluid-mechanics-experimental-work 76t20-suspensions piv}, month = dec, organization = {Society of Photo-Optical Instrumentation Engineers}, publisher = {{SPIE}}, timestamp = {2023-08-17T07:49:20.000+0200}, title = {Digital Image Velocimetry}, url = {https://www.spiedigitallibrary.org/conference-proceedings-of-spie/0974/1/Digital-Image-Velocimetry/10.1117/12.948467.short?SSO=1}, venue = {San Diego, California}, volume = 0974, year = 1988 }