Add to ORKGWe propose a simple yet effective reflection-free cue for robust reflection removal from a pair of flash and ambient (no-flash) images. The reflection-free cue exploits a flash-only image obtained by subtracting the ambient image from the corresponding flash image in raw data space. The flash-only image is equivalent to an image taken in a dark environment with only a flash on. This flash-only image is visually reflection-free and thus can provide robust cues to infer the reflection in the ambient image. Since the flash-only image usually has artifacts, we further propose a dedicated model that not only utilizes the reflection-free cue but also avoids introducing artifacts, which helps accurately estimate reflection and transmission. Our ex...
This paper aims to calibrate the orientation of glass and the field of view of the camera from a sin...
Photos taken through reflective surfaces such as display windows inevitably suffer from visual degra...
Shadows confound many machine vision algorithms and strong ambient illumination confounds active ima...
Reflection removal aims at enhancing the visibility of the background scene while removing the refle...
Removing reflection artefacts from a single image is a problem of both theoretical and practical int...
Reflections are a common artifact in images taken through glass windows. Automatically removing the ...
Images taken in low light conditions typically contain distracting noise, and eliminating such noise...
Traditional reflection removal algorithms either use a single image as input, which suffers from int...
Shadows bedevil multimedia applications, e.g. seeing into shadow regions in surveillance video. Mode...
The existing methods for reflection removal mainly focus on removing blurry and weak reflection arti...
This paper proposes an optimization-based method to remove highlights from specular surfaces without...
With the rapid development of deep learning algorithms and powerful computing hardware, some classic...
Photographs taken through glass windows often contain both the desired scene and undesired reflectio...
Photographs taken through glass windows often contain both the desired scene and undesired reflectio...
Reflections are very common phenomena in our daily photography, which distract people's attention fr...
This paper aims to calibrate the orientation of glass and the field of view of the camera from a sin...
Photos taken through reflective surfaces such as display windows inevitably suffer from visual degra...
Shadows confound many machine vision algorithms and strong ambient illumination confounds active ima...
Reflection removal aims at enhancing the visibility of the background scene while removing the refle...
Removing reflection artefacts from a single image is a problem of both theoretical and practical int...
Reflections are a common artifact in images taken through glass windows. Automatically removing the ...
Images taken in low light conditions typically contain distracting noise, and eliminating such noise...
Traditional reflection removal algorithms either use a single image as input, which suffers from int...
Shadows bedevil multimedia applications, e.g. seeing into shadow regions in surveillance video. Mode...
The existing methods for reflection removal mainly focus on removing blurry and weak reflection arti...
This paper proposes an optimization-based method to remove highlights from specular surfaces without...
With the rapid development of deep learning algorithms and powerful computing hardware, some classic...
Photographs taken through glass windows often contain both the desired scene and undesired reflectio...
Photographs taken through glass windows often contain both the desired scene and undesired reflectio...
Reflections are very common phenomena in our daily photography, which distract people's attention fr...
This paper aims to calibrate the orientation of glass and the field of view of the camera from a sin...
Photos taken through reflective surfaces such as display windows inevitably suffer from visual degra...
Shadows confound many machine vision algorithms and strong ambient illumination confounds active ima...