Add to ORKGWe propose a simplified and practical computational technique for estimating directional lighting in uncalibrated images of faces in frontal pose. We show that this inverse problem can be solved using constrained least-squares and class-specific priors on shape and reflectance. For simplicity, the principal illuminant is modeled as a mixture of Lambertian and ambient components. By using a generic 3D face shape and an average 2D albedo we can efficiently compute the directional lighting with surprising accuracy (in real-time and with or without shadows). We then use our lighting direction estimate in a forward rendering step to relight arbitrarily-lit input faces to a canonical (diffuse) form as needed for illumination-invariant face...
this paper we present a novel framework that acquires the 3D shape, texture, pose and illumination ...
Abstract. We introduce a method to jointly estimate the BRDF and geometry of an object from a single...
3D face reconstruction from a single 2D image can be performed using a 3D Morphable Model (3DMM) in ...
Abstract. We propose a simplified and practical computational technique for estimating directional l...
We propose a machine learning approach for estimating intrinsic faces and hence de-illuminating and ...
In this paper three problems related to the analysis of facial images are addressed: the illuminant ...
Abstract: Pose and illumination changings from picture to picture are two main barriers toward full ...
The images of a given object under varying conditions is commonly called an appearance manifold. Thi...
This paper proposes a fast algorithm for three-dimensional face reconstruction using uncalibrated Ph...
We propose a novel method to correct for arbitrary illu-mination variation in the face images. The m...
Abstract. Pose and illumination changes from picture to picture are two main barriers toward full au...
International audience—2D face analysis techniques, such as face landmarking, face recognition and f...
Large pose and illumination variations are very challenging for face recognition. The 3D Morphable M...
Face recognition under uncontrolled illumination conditions is still considered an unsolved problem....
The performances of the current face recognition systems suffer heavily from the variations in light...
this paper we present a novel framework that acquires the 3D shape, texture, pose and illumination ...
Abstract. We introduce a method to jointly estimate the BRDF and geometry of an object from a single...
3D face reconstruction from a single 2D image can be performed using a 3D Morphable Model (3DMM) in ...
Abstract. We propose a simplified and practical computational technique for estimating directional l...
We propose a machine learning approach for estimating intrinsic faces and hence de-illuminating and ...
In this paper three problems related to the analysis of facial images are addressed: the illuminant ...
Abstract: Pose and illumination changings from picture to picture are two main barriers toward full ...
The images of a given object under varying conditions is commonly called an appearance manifold. Thi...
This paper proposes a fast algorithm for three-dimensional face reconstruction using uncalibrated Ph...
We propose a novel method to correct for arbitrary illu-mination variation in the face images. The m...
Abstract. Pose and illumination changes from picture to picture are two main barriers toward full au...
International audience—2D face analysis techniques, such as face landmarking, face recognition and f...
Large pose and illumination variations are very challenging for face recognition. The 3D Morphable M...
Face recognition under uncontrolled illumination conditions is still considered an unsolved problem....
The performances of the current face recognition systems suffer heavily from the variations in light...
this paper we present a novel framework that acquires the 3D shape, texture, pose and illumination ...
Abstract. We introduce a method to jointly estimate the BRDF and geometry of an object from a single...
3D face reconstruction from a single 2D image can be performed using a 3D Morphable Model (3DMM) in ...