We present an end-to-end pipeline that enables head-motion parallax for omnidirectional stereo (ODS) panoramas. Based on an ODS panorama containing a left and right eye view, our method estimates dense horizontal disparity fields between the stereo image pair. From this, we calculate a depth augmented stereo panorama (DASP) by explicitly reconstructing the scene geometry from the viewing circle corresponding to the ODS representation. The generated DASP representation supports motion parallax within the ODS viewing circle. Our approach operates directly on existing ODS panoramas. The experiments indicate the robustness and versatility of our approach on multiple real-world ODS panoramas.This project has received funding from the European Un...
Omnidirectional cameras offer a much wider field of view than the perspective ones and alleviate the...
This thesis focuses on the photometric stereo problem and the omnidirectional vision. The photometri...
Existing stereoscopic imaging algorithms can create static stereoscopic images with perceived depth ...
Surround-view panoramic images and videos have become a popular form of media for interactive viewin...
Stereoscopic images are hard to get right, and comfortable images are often only produced after repe...
In this article we present a panoramic depth imaging system. The system is mosaic-based which means ...
The usable perceived depth range of a stereoscopic 3D display is limited by human factors considerat...
Omnidirectional and 360º images are becoming widespread in industry and in consumer society, causing...
Binocular disparity is the main depth cue that makes stereoscopic images appear 3D. However, in many...
An omni-directional catadioptric acquisition system (ODCA system) is provided to address the problem...
As a depth sensing approach, whilst stereo vision provides a good compromise between accuracy and c...
This thesis analyzes the problem of acquiring stereoscopic images in all gazing directions around a ...
360∘ images and videos have become an economic and popular way to provide VR experiences using real-...
6-Degree of Freedoms (6-DoF) is a concept that refers to the ability to translate and rotate freely ...
Cette thèse s'intéresse à la reconstruction 3D par stéréophotométrie et à la vision omnidirectionnel...
Omnidirectional cameras offer a much wider field of view than the perspective ones and alleviate the...
This thesis focuses on the photometric stereo problem and the omnidirectional vision. The photometri...
Existing stereoscopic imaging algorithms can create static stereoscopic images with perceived depth ...
Surround-view panoramic images and videos have become a popular form of media for interactive viewin...
Stereoscopic images are hard to get right, and comfortable images are often only produced after repe...
In this article we present a panoramic depth imaging system. The system is mosaic-based which means ...
The usable perceived depth range of a stereoscopic 3D display is limited by human factors considerat...
Omnidirectional and 360º images are becoming widespread in industry and in consumer society, causing...
Binocular disparity is the main depth cue that makes stereoscopic images appear 3D. However, in many...
An omni-directional catadioptric acquisition system (ODCA system) is provided to address the problem...
As a depth sensing approach, whilst stereo vision provides a good compromise between accuracy and c...
This thesis analyzes the problem of acquiring stereoscopic images in all gazing directions around a ...
360∘ images and videos have become an economic and popular way to provide VR experiences using real-...
6-Degree of Freedoms (6-DoF) is a concept that refers to the ability to translate and rotate freely ...
Cette thèse s'intéresse à la reconstruction 3D par stéréophotométrie et à la vision omnidirectionnel...
Omnidirectional cameras offer a much wider field of view than the perspective ones and alleviate the...
This thesis focuses on the photometric stereo problem and the omnidirectional vision. The photometri...
Existing stereoscopic imaging algorithms can create static stereoscopic images with perceived depth ...