Multi-projector displays using camera-based registration
VIS '99 Proceedings of the conference on Visualization '99: celebrating ten years
Shader Lamps: Animating Real Objects With Image-Based Illumination
Proceedings of the 12th Eurographics Workshop on Rendering Techniques
Multiple View Geometry in Computer Vision
Multiple View Geometry in Computer Vision
Scalable self-calibrating display technology for seamless large-scale displays
Scalable self-calibrating display technology for seamless large-scale displays
Superimposing Pictorial Artwork with Projected Imagery
IEEE MultiMedia
Specular Reflection Elimination for Projection-Based Augmented Reality
ISMAR '05 Proceedings of the 4th IEEE/ACM International Symposium on Mixed and Augmented Reality
Surface-Independent direct-projected augmented reality
ACCV'06 Proceedings of the 7th Asian conference on Computer Vision - Volume Part II
Specularity-Free projection on nonplanar surface
PCM'05 Proceedings of the 6th Pacific-Rim conference on Advances in Multimedia Information Processing - Volume Part I
The visual computing of projector-camera systems
ACM SIGGRAPH 2008 classes
| Hi-index | 0.00 |
Existing radiometric compensation methods are based on the assumption that the projection surface (screen) is Lambertian, i.e. there exists no specular reflection. Thus the methods cannot be applied to non-Lambertian surfaces which are ubiquitous in our everyday environment. In this paper, we try to faithfully display an image onto non-Lambertian surfaces using multiple overlapping projectors and cameras. The projectors which are separated at a distance would hardly produce specular reflection at the same time at the same point of the projection surface. Therefore, we can reasonably assume that there is at least one diffuse projector which does not generate specular reflection in a region of projection surface at a camera viewpoint. From the perspective of the diffuse projector-camera pair, the region of projection surface looks like Lambertian and the existing radiometric compensation methods could be employed for compensating the radiometric distortion of the region. Experimental results are given to show the validity of our method.