Add to ORKGInternational audienceThis paper describes a lightweight neural network architecture with an adversarial loss for generating a full light field from one single image. The method is able to estimate disparity maps and automatically identify occluded regions from one single image thanks to a disparity confidence map based on forward-backward consistency checks. The disparity confidence map also controls the use of an adversarial loss for occlusion handling. The approach outperforms reference methods when trained and tested on light field data. Besides, we also designed the method so that it can efficiently generate a full light field from one single image, even when trained only on stereo data. This allows us to generalize our approach for vi...
A light field models the intensity of every ray of light flowing through every point in a given scen...
International audienceThis paper addresses the problem of depth estimation for every viewpoint of a ...
International audienceThis paper proposes a learning based solution to disparity (depth) estimation ...
International audienceThis paper describes a lightweight neural network architecture with an adversa...
International audienceThis paper describes a lightweight neural network architecture with an adversa...
International audienceThis paper describes a lightweight neural network architecture with an adversa...
International audienceThis paper describes a lightweight neural network architecture with an adversa...
International audienceIn this article, we present a very lightweight neural network architecture, tr...
International audienceIn this article, we present a very lightweight neural network architecture, tr...
International audienceIn this article, we present a very lightweight neural network architecture, tr...
International audienceIn this article, we present a very lightweight neural network architecture, tr...
A light field models the intensity of every ray of light flowing through every point in a given scen...
A light field models the intensity of every ray of light flowing through every point in a given scen...
A light field models the intensity of every ray of light flowing through every point in a given scen...
A light field models the intensity of every ray of light flowing through every point in a given scen...
A light field models the intensity of every ray of light flowing through every point in a given scen...
International audienceThis paper addresses the problem of depth estimation for every viewpoint of a ...
International audienceThis paper proposes a learning based solution to disparity (depth) estimation ...
International audienceThis paper describes a lightweight neural network architecture with an adversa...
International audienceThis paper describes a lightweight neural network architecture with an adversa...
International audienceThis paper describes a lightweight neural network architecture with an adversa...
International audienceThis paper describes a lightweight neural network architecture with an adversa...
International audienceIn this article, we present a very lightweight neural network architecture, tr...
International audienceIn this article, we present a very lightweight neural network architecture, tr...
International audienceIn this article, we present a very lightweight neural network architecture, tr...
International audienceIn this article, we present a very lightweight neural network architecture, tr...
A light field models the intensity of every ray of light flowing through every point in a given scen...
A light field models the intensity of every ray of light flowing through every point in a given scen...
A light field models the intensity of every ray of light flowing through every point in a given scen...
A light field models the intensity of every ray of light flowing through every point in a given scen...
A light field models the intensity of every ray of light flowing through every point in a given scen...
International audienceThis paper addresses the problem of depth estimation for every viewpoint of a ...
International audienceThis paper proposes a learning based solution to disparity (depth) estimation ...