Difference between revisions of "Integral imaging"
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'''Integral imaging''' is a method of imaging that captures a [[light field]] by using a [[lens array]]. It involves capturing a lot of slightly different views onto one photographic surface. | '''Integral imaging''' is a method of imaging that captures a [[light field]] by using a [[lens array]]. It involves capturing a lot of slightly different views onto one photographic surface. | ||
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| + | When properly practiced, the result is stunning three dimensional imagery that coveys a realism matched only by museum-quality holograms.<ref name="k934">{{cite web | title=The History of Integral Print Methods | author=David E. Roberts and Trebor Smith|url=https://web.archive.org/web/20160805064102if_/http://lenticulartechnology.com/files/2014/02/Integral-History.pdf | access-date=2024-09-16}}</ref> | ||
Its inventor is [[Gabriel Lippman]]. | Its inventor is [[Gabriel Lippman]]. | ||
Revision as of 20:00, 16 September 2024
Integral imaging is a method of imaging that captures a light field by using a lens array. It involves capturing a lot of slightly different views onto one photographic surface.
When properly practiced, the result is stunning three dimensional imagery that coveys a realism matched only by museum-quality holograms.[1]
Its inventor is Gabriel Lippman.
It is the same as light field imaging.
A set of pinholes can be used instead of lenses. This technique was done by Eugène Estanave.[2]
References
- ↑ David E. Roberts and Trebor Smith. "The History of Integral Print Methods". https://web.archive.org/web/20160805064102if_/http://lenticulartechnology.com/files/2014/02/Integral-History.pdf.
- ↑ "Pinhole camera". 2002-09-06. https://en.wikipedia.org/wiki/Pinhole_camera.