Underwater images suffer from severe perceptual/visual degradation, due to the dense and non-uniform medium, causing scattering and attenuation of the propagated light that is sensed. Typical restoration methods rely on the popular Dark Channel Prior to estimate the light attenuation factor, and subtract the back-scattered light influence to invert the underwater imaging model. However, as a consequence of using approximate and global estimates of the back-scattered light, most existing single-image underwater descattering techniques perform poorly when restoring non-uniformly illuminated scenes. To mitigate this problem, we introduce a novel approach that estimates the back-scattered light locally, based on the observation of a neighborhoo...
We introduce an effective technique to enhance the images captured underwater and degraded due to th...
We introduce an effective technique to enhance the images captured underwater and degraded due to th...
Underwater images often suffer from color distortion and low contrast, because light is scattered an...
Underwater images suffer from severe perceptual/visual degradation, due to the dense and non-uniform...
Underwater vision enhancement via backscatter removing is widely used in ocean engineering. With inc...
Underwater images suffer from different types of quality degradation, including haze, blur, low cont...
Structured lighting techniques have increasingly been employed in underwater imaging, where scatteri...
Abstract — Underwater environments present a considerable challenge for computer vision, since water...
Images degraded by light scattering and absorption such as hazy, sandstorm, and underwater images of...
Underwater image enhancement (UIE) is an imperative computer vision activity with many applications ...
Underwater images typically suffer from low visibility and severe colorcast due to scattering and ab...
Underwater images typically suffer from low visibility and severe colorcast due to scattering and ab...
Underwater images typically suffer from low visibility and severe colorcast due to scattering and ab...
We introduce an effective technique to enhance the images captured underwater and degraded due to th...
We introduce an effective technique to enhance the images captured underwater and degraded due to th...
We introduce an effective technique to enhance the images captured underwater and degraded due to th...
We introduce an effective technique to enhance the images captured underwater and degraded due to th...
Underwater images often suffer from color distortion and low contrast, because light is scattered an...
Underwater images suffer from severe perceptual/visual degradation, due to the dense and non-uniform...
Underwater vision enhancement via backscatter removing is widely used in ocean engineering. With inc...
Underwater images suffer from different types of quality degradation, including haze, blur, low cont...
Structured lighting techniques have increasingly been employed in underwater imaging, where scatteri...
Abstract — Underwater environments present a considerable challenge for computer vision, since water...
Images degraded by light scattering and absorption such as hazy, sandstorm, and underwater images of...
Underwater image enhancement (UIE) is an imperative computer vision activity with many applications ...
Underwater images typically suffer from low visibility and severe colorcast due to scattering and ab...
Underwater images typically suffer from low visibility and severe colorcast due to scattering and ab...
Underwater images typically suffer from low visibility and severe colorcast due to scattering and ab...
We introduce an effective technique to enhance the images captured underwater and degraded due to th...
We introduce an effective technique to enhance the images captured underwater and degraded due to th...
We introduce an effective technique to enhance the images captured underwater and degraded due to th...
We introduce an effective technique to enhance the images captured underwater and degraded due to th...
Underwater images often suffer from color distortion and low contrast, because light is scattered an...