“A practical approach for photometric acquisition of hair color”
Conference:
Type(s):
Title:
- A practical approach for photometric acquisition of hair color
Session/Category Title: Hair & collaborative modeling
Presenter(s)/Author(s):
Moderator(s):
Abstract:
In this work a practical approach to photometric acquisition of hair color is presented. Based on a single input photograph of a simple setup we are able to extract physically plausible optical properties of hair and to render virtual hair closely matching the original. Our approach does not require any costly special hardware but a standard consumer camera only.
References:
1. Debevec, P. E., and Malik, J. 1997. Recovering high dynamic range radiance maps from photographs. In SIGGRAPH ’97: Proceedings of the 24th annual conference on Computer graphics and interactive techniques, ACM Press/Addison-Wesley Publishing Co., 369–378. Google ScholarDigital Library
2. Kajiya, J. T., and Kay, T. L. 1989. Rendering fur with three dimensional textures. In SIGGRAPH ’89: Proceedings of the 16th annual conference on Computer graphics and interactive techniques, ACM, New York, NY, USA, 271–280. Google ScholarDigital Library
3. Keis, K., Ramprasad, K., and Kamath, Y. 2004. Studies of light scattering from ethnic hair fibers. In Journal of Cosmetic Science, 49–63.Google Scholar
4. Malladi, R., and Sethian, J. A. 1998. A real-time algorithm for medical shape recovery. In Proceedings of International Conference on Computer Vision, 304–310. Google ScholarDigital Library
5. Marschner, S. R., Jensen, H. W., Cammarano, M., Worley, S., and Hanrahan, P. 2003. Light scattering from human hair fibers. ACM Transactions on Graphics 22, 3, 780–791. SIGGRAPH 2003. Google ScholarDigital Library
6. Marschner, S. R. 1998. Inverse rendering for computer graphics. PhD thesis, Cornell University, Ithaca, NY, USA. Adviser: Donald P. Greenberg. Google ScholarDigital Library
7. McMullen, R., and Jachowicz, J. 2003. Optical properties of hair: effect of treatments on luster as quantified by image analysis. In Journal of Cosmetic Science, 335–351.Google Scholar
8. Moon, J. T., and Marschner, S. R. 2006. Simulating multiple scattering in hair using a photon mapping approach. ACM Transactions on Graphics 25, 3, 1067–1074. SIGGRAPH 2006. Google ScholarDigital Library
9. Moon, J. T., Walter, B., and Marschner, S. 2008. Efficient multiple scattering in hair using spherical harmonics. ACM Transactions on Graphics 27, 3, 31. SIGGRAPH 2008. Google ScholarDigital Library
10. Nayar, S. K., Krishnan, G., Grossberg, M. D., and Raskar, R. 2006. Fast separation of direct and global components of a scene using high frequency illumination. ACM Transactions on Graphics 25, 3, 935–944. SIGGRAPH 2006. Google ScholarDigital Library
11. Ngan, A., Durand, F., and Matusik, W. 2005. Experimental analysis of BRDF models. In Proceedings of the Eurographics Symposium on Rendering, Eurographics Association, 117–226. Google ScholarDigital Library
12. Paris, S., Chang, W., Kozhushnyan, O. I., Jarosz, W., Matusik, W., Zwicker, M., and Durand, F. 2008. Hair photobooth: geometric and photometric acquisition of real hairstyles. ACM Transactions on Graphics 27, 3, 30. SIGGRAPH 2008. Google ScholarDigital Library
13. Zinke, A., and Weber, A. 2006. Global illumination for fiber based geometries. In Electronic proceedings of the Ibero American Symposium on Computer Graphics (SIACG 2006).Google Scholar
14. Zinke, A., and Weber, A. 2007. Light scattering from filaments. IEEE Transactions on Visualization and Computer Graphics 13, 2, 342–356. Google ScholarDigital Library
15. Zinke, A., Sobottka, G., and Weber, A. 2004. Photorealistic rendering of blond hair. In Vision, Modeling, and Visualization (VMV) 2004, IOS Press, Stanford, U.S.A., B. Girod, M. Magnor, and H.-P. Seidel, Eds., 191–198.Google Scholar
16. Zinke, A., Yuksel, C., Weber, A., and Keyser, J. 2008. Dual scattering approximation for fast multiple scattering in hair. ACM Transactions on Graphics 27, 3, 32. SIGGRAPH 2008. Google ScholarDigital Library
