“Coded Facial Expression”
Conference:
Experience Type(s):
Title:
- Coded Facial Expression
Description:
Projection based augmented reality, which is a type of Spatial Augmented Reality (SAR), can directly apply augmentation to the real world by illumination projection. The use of a camera enables the target tracking and geometrical correction of the projected image on SAR applications. In the conventional projection mapping procedure, video content is prepared before projection onto the target object to overlay it. The problem is that the alignment procedure for the projection mapping is always a time-consuming task. However, if we could embed the alignment information or the manipulation procedure on the surface on the object, object tracking would be unnecessary. This paper proposes an innovative projection mapping technique using a coded printing technique for the manipulation of a facial expression on a printed photograph.
References:
[1]
Amano, T. 2012. Shading illusion: A novel way for 3-d representation on paper media. In 2012 IEEE Computer Society Conference on CVPR Workshops, 1–6.
[2]
Asayama, H., Iwai, D., and Sato, K. 2015. Diminishable visual markers on fabricated projection object for dynamic spatial augmented reality. In SIGGRAPH Asia 2015 Posters, ACM, SA ’15, 38:1–38:1.
[3]
Ehnes, J., Hirota, K., and Hirose, M. 2004. Projected augmentation – augmented reality using rotatable video projectors. In Third IEEE and ACM Int’l Symposium on ISMAR, 26–35.
[4]
Fujii, K., Grossberg, M., and Nayar, S. 2005. A projector-camera system with real-time photometric adaptation for dynamic environments. 2005 IEEE Computer Society Conference on CVPR, 814–821 vol. 1.
[5]
Kawabe, T., Sawayama, M., and Nishida, S. 2015. Deformation lamps: A projection technique to make a static picture dynamic. In ACM SIGGRAPH 2015 Emerging Technologies, ACM, SIGGRAPH ’15, 8:1–8:1.
[6]
Lyons, M., Akamatsu, S., Kamachi, M., and Gyoba, J. 1998. Coding facial expressions with gabor wavelets. In Proc of Third IEEE Int’l Conf. on Automatic Face and Gesture Recognition, 200–205.
[7]
Molyneaux, D., Gellersen, H., and Finney, J. 2013. Cooperative augmentation of mobile smart objects with projected displays. ACM Trans. Interact. Intell. Syst. 3, 2 (Aug.), 7:1–7:35.
[8]
Nayar, S. K., Peri, H., Grossberg, M. D., and Belhumeur, P. N. 2003. A projection system with radiometric compensation for screen imperfections. IEEE International Workshop on Projector-CameraSystems.
[9]
Resch, C., Keitler, P., and Klinker, G. 2014. Sticky projections – a new approach to interactive shader lamp tracking. In IEEE International Symposium on ISMAR, 151–156.
