Add to ORKGWe propose GazeNeRF, a 3D-aware method for the task of gaze redirection. Existing gaze redirection methods operate on 2D images and struggle to generate 3D consistent results. Instead, we build on the intuition that the face region and eyeballs are separate 3D structures that move in a coordinated yet independent fashion. Our method leverages recent advancements in conditional image-based neural radiance fields and proposes a two-stream architecture that predicts volumetric features for the face and eye regions separately. Rigidly transforming the eye features via a 3D rotation matrix provides fine-grained control over the desired gaze angle. The final, redirected image is then attained via differentiable volume compositing. Our experiments...
This paper tackles RGBD based gaze estimation with Convolutional Neural Networks (CNNs). Specificall...
We present PVSeRF, a learning framework that reconstructs neural radiance fields from single-view RG...
We present PVSeRF, a learning framework that reconstructs neural radiance fields from single-view RG...
Gaze redirection aims at manipulating the gaze of a given face image with respect to a desired direc...
We present GazeDirector, a new approach for eye gaze redirection that uses model-fitting. Our method...
In this paper, we propose a method for improving the angular accuracy and photo-reality of gaze and ...
Face rendering using neural radiance fields (NeRF) is a rapidly developing research area in computer...
As an indicator of human attention gaze is a subtle behavioral cue which can be exploited in many ap...
The human eye manifests remarkable optical and mechanical characteristics that can be exploited to d...
The human eye manifests remarkable optical and mechanical characteristics that can be exploited to d...
The aim of gaze redirection is to manipulate the gaze in an image to the desired direction. However,...
Gaze and head pose estimation can play essential roles in various applications, such as human attent...
Generative Neural Radiance Fields (GNeRF) based 3D-aware GANs have demonstrated remarkable capabilit...
We propose to tackle the multiview photometric stereo problem using an extension of Neural Radiance ...
We introduce a technique for pairwise registration of neural fields that extends classical optimizat...
This paper tackles RGBD based gaze estimation with Convolutional Neural Networks (CNNs). Specificall...
We present PVSeRF, a learning framework that reconstructs neural radiance fields from single-view RG...
We present PVSeRF, a learning framework that reconstructs neural radiance fields from single-view RG...
Gaze redirection aims at manipulating the gaze of a given face image with respect to a desired direc...
We present GazeDirector, a new approach for eye gaze redirection that uses model-fitting. Our method...
In this paper, we propose a method for improving the angular accuracy and photo-reality of gaze and ...
Face rendering using neural radiance fields (NeRF) is a rapidly developing research area in computer...
As an indicator of human attention gaze is a subtle behavioral cue which can be exploited in many ap...
The human eye manifests remarkable optical and mechanical characteristics that can be exploited to d...
The human eye manifests remarkable optical and mechanical characteristics that can be exploited to d...
The aim of gaze redirection is to manipulate the gaze in an image to the desired direction. However,...
Gaze and head pose estimation can play essential roles in various applications, such as human attent...
Generative Neural Radiance Fields (GNeRF) based 3D-aware GANs have demonstrated remarkable capabilit...
We propose to tackle the multiview photometric stereo problem using an extension of Neural Radiance ...
We introduce a technique for pairwise registration of neural fields that extends classical optimizat...
This paper tackles RGBD based gaze estimation with Convolutional Neural Networks (CNNs). Specificall...
We present PVSeRF, a learning framework that reconstructs neural radiance fields from single-view RG...
We present PVSeRF, a learning framework that reconstructs neural radiance fields from single-view RG...