Retinex Poisson Equation: a Model for Color Perception
In 1964 Edwin H. Land formulated the Retinex theory, the first attempt to simulate and explain how the human visual system perceives color. Unfortunately, the Retinex Land-McCann original algorithm is both complex and not fully specified. Indeed, this algorithm computes at each pixel an average of a...
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Image Processing On Line
2011-04-01
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| Series: | Image Processing On Line |
| Online Access: | http://www.ipol.im/pub/art/2011/lmps_rpe/ |
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doaj-d0bfd6c6570a4e92a0e1cf13d7a52cb92020-11-24T23:28:40ZengImage Processing On LineImage Processing On Line2105-12322011-04-011395010.5201/ipol.2011.lmps_rpeRetinex Poisson Equation: a Model for Color PerceptionNicola LimareAna-Belen PetroCatalina SbertJean-Michel MorelIn 1964 Edwin H. Land formulated the Retinex theory, the first attempt to simulate and explain how the human visual system perceives color. Unfortunately, the Retinex Land-McCann original algorithm is both complex and not fully specified. Indeed, this algorithm computes at each pixel an average of a very large set of paths on the image. For this reason, Retinex has received several interpretations and implementations which, among other aims, attempt to tune down its excessive complexity. But, Morel et al. have shown that the original Retinex algorithm can be formalized as a (discrete) partial differential equation. This article describes the PDE-Retinex, a fast implementation of the Land-McCann original theory using only two DFT’s.http://www.ipol.im/pub/art/2011/lmps_rpe/ |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Nicola Limare Ana-Belen Petro Catalina Sbert Jean-Michel Morel |
| spellingShingle |
Nicola Limare Ana-Belen Petro Catalina Sbert Jean-Michel Morel Retinex Poisson Equation: a Model for Color Perception Image Processing On Line |
| author_facet |
Nicola Limare Ana-Belen Petro Catalina Sbert Jean-Michel Morel |
| author_sort |
Nicola Limare |
| title |
Retinex Poisson Equation: a Model for Color Perception |
| title_short |
Retinex Poisson Equation: a Model for Color Perception |
| title_full |
Retinex Poisson Equation: a Model for Color Perception |
| title_fullStr |
Retinex Poisson Equation: a Model for Color Perception |
| title_full_unstemmed |
Retinex Poisson Equation: a Model for Color Perception |
| title_sort |
retinex poisson equation: a model for color perception |
| publisher |
Image Processing On Line |
| series |
Image Processing On Line |
| issn |
2105-1232 |
| publishDate |
2011-04-01 |
| description |
In 1964 Edwin H. Land formulated the Retinex theory, the first attempt to simulate and explain how the human visual system perceives color. Unfortunately, the Retinex Land-McCann original algorithm is both complex and not fully specified. Indeed, this algorithm computes at each pixel an average of a very large set of paths on the image. For this reason, Retinex has received several interpretations and implementations which, among other aims, attempt to tune down its excessive complexity. But, Morel et al. have shown that the original Retinex algorithm can be formalized as a (discrete) partial differential equation. This article describes the PDE-Retinex, a fast implementation of the Land-McCann original theory using only two DFT’s. |
| url |
http://www.ipol.im/pub/art/2011/lmps_rpe/ |
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