TY  - RPRT
A1  - Amano, Toshiyuki
A1  - Bimber, Oliver
A1  - Grundhöfer, Anselm
T1  - Appearance Enhancement for Visually Impaired with Projector Camera Feedback
N2  - Visually impaired is a common problem for human life in the world wide. The projector-based AR technique has ability to change appearance of real object, and it can help to improve visibility for visually impaired. We propose a new framework for the appearance enhancement with the projector camera system that employed model predictive controller. This framework enables arbitrary image processing such as photo-retouch software in the real world and it helps to improve visibility for visually impaired. In this article, we show the appearance enhancement result of Peli's method and Wolffshon's method for the low vision, Jefferson's method for color vision deficiencies. Through experiment results, the potential of our method to enhance the appearance for visually impaired was confirmed as same as appearance enhancement for the digital image and television viewing.
KW  - Maschinelles Sehen
KW  - Projector Camera System
KW  - Model Predictive Control
KW  - Visually Impaired
Y1  - 2010
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20100106-14974
ER  - 
TY  - RPRT
A1  - Grundhöfer, Anselm
A1  - Bimber, Oliver
T1  - Dynamic Bluescreens
N2  - Blue screens and chroma keying technology are essential for digital video composition. Professional studios apply tracking technology to record the camera path for perspective augmentations of the original video footage. Although this technology is well established, it does not offer a great deal of flexibility. For shootings at non-studio sets, physical blue screens might have to be installed, or parts have to be recorded in a studio separately. We present a simple and flexible way of projecting corrected keying colors onto arbitrary diffuse surfaces using synchronized projectors and radiometric compensation. Thereby, the reflectance of the underlying real surface is neutralized. A temporal multiplexing between projection and flash illumination allows capturing the fully lit scene, while still being able to key the foreground objects. In addition, we embed spatial codes into the projected key image to enable the tracking of the camera. Furthermore, the reconstruction of the scene geometry is implicitly supported.
KW  - Association for Computing Machinery / Special Interest Group on Graphics
KW  - CGI <Computergraphik>
KW  - Maschinelles Sehen
KW  - Farbstanzen
KW  - Erweiterte Realität
KW  - Projektion
KW  - Chroma Keying
KW  - Bildmischung
KW  - Augmented Reality
KW  - Projection
KW  - Chromakeying
KW  - Compositing
Y1  - 2008
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20080226-13016
ER  - 
TY  - RPRT
A1  - Kurz, Daniel
A1  - Häntsch, Ferry
A1  - Grosse, Max
A1  - Schiewe, Alexander
A1  - Bimber, Oliver
T1  - Laser Pointer Tracking in Projector-Augmented Architectural Environments
N2  - We present a system that applies a custom-built pan-tilt-zoom camera for laser-pointer tracking in arbitrary real environments. Once placed in a building environment, it carries out a fully automatic self-registration, registrations of projectors, and sampling of surface parameters, such as geometry and reflectivity. After these steps, it can be used for tracking a laser spot on the surface as well as an LED marker in 3D space, using inter-playing fisheye context and controllable detail cameras. The captured surface information can be used for masking out areas that are critical to laser-pointer tracking, and for guiding geometric and radiometric image correction techniques that enable a projector-based augmentation on arbitrary surfaces. We describe a distributed software framework that couples laser-pointer tracking for interaction, projector-based AR as well as video see-through AR for visualizations with the domain specific functionality of existing desktop tools for architectural planning, simulation and building surveying.
KW  - Association for Computing Machinery / Special Interest Group on Graphics
KW  - CGI <Computergraphik>
KW  - Architektur <Informatik>
KW  - Maschinelles Sehen
KW  - Laserpointer Tracking
KW  - Erweiterte Realität
KW  - Interaktion
KW  - Projektion
KW  - Verteilte Systeme
KW  - Laser Pointer Tracking
KW  - Augmented Reality
KW  - Interaction
KW  - Projection
KW  - Distributed Systems
Y1  - 2007
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20111215-8183
ER  - 
TY  - RPRT
A1  - Grundhöfer, Anselm
A1  - Seeger, Manja
A1  - Häntsch, Ferry
A1  - Bimber, Oliver
T1  - Dynamic Adaptation of Projected Imperceptible Codes
N2  - In this paper we present a novel adaptive imperceptible pattern projection technique that considers parameters of human visual perception. A coded image that is invisible for human observers is temporally integrated into the projected image, but can be reconstructed by a synchronized camera. The embedded code is dynamically adjusted on the fly to guarantee its non-perceivability and to adapt it to the current camera pose. Linked with real-time flash keying, for instance, this enables in-shot optical tracking using a dynamic multi-resolution marker technique. A sample prototype is realized that demonstrates the application of our method in the context of augmentations in television studios.
KW  - Association for Computing Machinery / Special Interest Group on Graphics
KW  - CGI <Computergraphik>
KW  - Maschinelles Sehen
KW  - Erweiterte Realität
KW  - Kamera Tracking
KW  - Projektion
KW  - Augmented Reality
KW  - Camera Tracking
KW  - Projection
Y1  - 2007
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20111215-8168
ER  - 
TY  - RPRT
A1  - Wetzstein, Gordon
A1  - Bimber, Oliver
T1  - Radiometric Compensation through Inverse Light Transport
N2  - Radiometric compensation techniques allow seamless projections onto complex everyday surfaces. Implemented with projector-camera systems they support the presentation of visual content in situations where projection-optimized screens are not available or not desired - as in museums, historic sites, air-plane cabins, or stage performances. We propose a novel approach that employs the full light transport between a projector and a camera to account for many illumination aspects, such as interreflections, refractions and defocus. Precomputing the inverse light transport in combination with an efficient implementation on the GPU makes the real-time compensation of captured local and global light modulations possible.
KW  - Association for Computing Machinery / Special Interest Group on Graphics
KW  - CGI <Computergraphik>
KW  - Maschinelles Sehen
KW  - Projektionssystem
KW  - radiometrische Kompensation
KW  - Licht Transport
KW  - Projector-Camera Systems
KW  - Radiometric Compensation
KW  - Inverse Light Transport
Y1  - 2007
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:gbv:wim2-20111215-8126
ER  -