论文信息 - Geometrically correct imagery for teleconferencing

Geometrically correct imagery for teleconferencing

Current camera-monitor teleconferencing applications produce unrealistic imagery and break any sense of presence for the participants. Other capture/display technologies can be used to provide more compelling teleconferencing. However, complex geometries in capture/display systems make producing geometrically correct imagery difficult. It is usually impractical to detect, model and compensate for all effects introduced by the capture/display system. Most applications simply ignore these issues and rely on the user acceptance of the camera-monitor paradigm. This paper presents a new and simple technique for producing geometrically correct imagery for teleconferencing environments. The necessary image transformations are derived by finding a mapping between a capture and display device for a fixed viewer location. The capture/display relationship is computed directly in device coordinates and completely avoids the need for any intermediate, complex representations of screen geometry, capture and display distortions, and viewer location. We describe our approach and demonstrate it via several prototype implementations that operate in real-time and provide a substantially more compelling sense of presence than the standard teleconferencing paradigm.

W. Brent Seales | Ruigang Yang | Michael S. Brown | Henry Fuchs

[1] William Buxton,et al. Beating the limitations of camera-monitor mediated telepresence with extra eyes , 1996, CHI.

[2] Martin D. Altschuler,et al. Measuring Surfaces Space-Coded By A Laser-Projected Dot Matrix , 1979, Other Conferences.

[3] Steven McCanne,et al. vic: a flexible framework for packet video , 1995, MULTIMEDIA '95.

[4] Naokazu Yokoya,et al. Generation of high-resolution stereo panoramic images by omnidirectional imaging sensor using hexagonal pyramidal mirrors , 1998, Proceedings. Fourteenth International Conference on Pattern Recognition (Cat. No.98EX170).

[5] Greg Welch,et al. The office of the future: a unified approach to image-based modeling and spatially immersive displays , 1998, SIGGRAPH.

[6] Carolina Cruz-Neira,et al. Surround-Screen Projection-Based Virtual Reality: The Design and Implementation of the CAVE , 2023 .

[7] H. Eriksson,et al. MBone : the multicast backbone : Internet technology , 1994 .

[8] W. Brent Seales,et al. Multi-projector displays using camera-based registration , 1999, Proceedings Visualization '99 (Cat. No.99CB37067).

[9] Brian Christopher Smith,et al. CU-SeeMe VR immersive desktop teleconferencing , 1997, MULTIMEDIA '96.

[10] Shree K. Nayar,et al. Catadioptric omnidirectional camera , 1997, Proceedings of IEEE Computer Society Conference on Computer Vision and Pattern Recognition.