Add to ORKGColors of objects observed in underwater environments are different from those in air. This is because the light intensity decreases with the distance from objects in water by light attenuation. Robots on the ground or in air usually recognize surrounding environments by using images acquired with cameras. The same is/will be true of underwater robots. However, recognition methods in air based on image processing techniques may become invalid in water because of light attenuation. Therefore, we propose a color registration method of underwater images. The proposed method estimates underwater environments where images are acquired, in other words, parameters essential to color registration, by using more than two images. After estimating par...
We describe a model for underwater illumination that is based on how light is absorbed and scattered...
International audienceIn this paper, a supervised enhancement method dedicated to underwater images ...
Objects look very different in the underwater environment compared to their appearance in sunlight. ...
Colors of objects observed in underwater environments are different from those in air. This is becau...
International audienceAbstract--In this article we present a new approach for object recognition in ...
Color-based underwater object recognition using water light attenuation Abstract—In this article we ...
Underwater imagery often exhibits distorted coloration as a result of light-water interactions, whic...
Color is probably the most informative cue for object recognition and classification in natural scen...
Developing a technique for underwater robot vision is a key factor in establishing autonomy in under...
Underwater image processing has to face the problem of loss of color and contrast that occurs when i...
For marine sciences sometimes there is a need to perform underwater photography. Optical properties ...
Underwater images captured by optical cameras can be degraded by light attenuation and scattering, w...
There have been increased developments in ocean exploration using autonomous underwater vehicles (AU...
Featured Application This work aims for recovering realistic colors of underwater images, which is v...
Underwater images are often with biased colours and reduced contrast because of the absorption and s...
We describe a model for underwater illumination that is based on how light is absorbed and scattered...
International audienceIn this paper, a supervised enhancement method dedicated to underwater images ...
Objects look very different in the underwater environment compared to their appearance in sunlight. ...
Colors of objects observed in underwater environments are different from those in air. This is becau...
International audienceAbstract--In this article we present a new approach for object recognition in ...
Color-based underwater object recognition using water light attenuation Abstract—In this article we ...
Underwater imagery often exhibits distorted coloration as a result of light-water interactions, whic...
Color is probably the most informative cue for object recognition and classification in natural scen...
Developing a technique for underwater robot vision is a key factor in establishing autonomy in under...
Underwater image processing has to face the problem of loss of color and contrast that occurs when i...
For marine sciences sometimes there is a need to perform underwater photography. Optical properties ...
Underwater images captured by optical cameras can be degraded by light attenuation and scattering, w...
There have been increased developments in ocean exploration using autonomous underwater vehicles (AU...
Featured Application This work aims for recovering realistic colors of underwater images, which is v...
Underwater images are often with biased colours and reduced contrast because of the absorption and s...
We describe a model for underwater illumination that is based on how light is absorbed and scattered...
International audienceIn this paper, a supervised enhancement method dedicated to underwater images ...
Objects look very different in the underwater environment compared to their appearance in sunlight. ...