Despite their numerous applications, efficiently rendering participating media remains a challenging task due to the intricacy of the radiative transport equation. While numerical techniques remain the method of choice for addressing complex problems, a closed-form solution to the air-light integral in optically thin isotropic media was recently derived. In this paper, we extend this work and present a novel analytical approach to single scattering from point light sources in homogeneous media. We propose a combined formulation of the air-light integral which allows both anisotropic phase functions and light distributions to be adequately handled. The technique relies neither on precomputation nor on storage, and we provide a robust and efficient implementation allowing for an explicit control on the accuracy of the results. Finally, the performance characteristics of the method on graphics hardware are evaluated and demonstrate its suitability to real-time applications.

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

	1	Milton Abramowitz, Handbook of Mathematical Functions, With Formulas, Graphs, and Mathematical Tables,, Dover Publications, Incorporated, 1974
	2	V. Biri, D. Arquès, and S. Michelin. Real Time Rendering of Atmospheric Scattering and Volumetric Shadows. Journal of WSCG, 14:65--72, 2006.
	3	V. Biri, S. Michelin, and D. Arquès. Real-Time Single Scattering with Shadows, 2003.
	4	James F. Blinn, Light reflection functions for simulation of clouds and dusty surfaces, ACM SIGGRAPH Computer Graphics, v.16 n.3, p.21-29, July 1982
	5	E. Cerezo, F. Perez-Cazorla, X. Pueyo, F. Seron, and F. Sillion. A Survey on Participating Media Rendering Techniques. The Visual Computer, 21(5):303--328, 2005.
	6	Yoshinori Dobashi , Tsuyoshi Yamamoto , Tomoyuki Nishita, Interactive Rendering Method for Displaying Shafts of Light, Proceedings of the 8th Pacific Conference on Computer Graphics and Applications, p.31, October 03-05, 2000
	7	Yoshinori Dobashi , Tsuyoshi Yamamoto , Tomoyuki Nishita, Interactive rendering of atmospheric scattering effects using graphics hardware, Proceedings of the ACM SIGGRAPH/EUROGRAPHICS conference on Graphics hardware, September 01-02, 2002, Saarbrucken, Germany
	8	M. E. and S. T. Volume Light. NVIDIA White Paper, 2008.
	9	N. Hoffman and A. J. Preetham. Rendering Outdoor Light Scattering in Real Time. ATI White Paper, 2002.
	10	Takashi Imagire , Henry Johan , Naoki Tamura , Tomoyuki Nishita, Anti-aliased and real-time rendering of scenes with light scattering effects, The Visual Computer: International Journal of Computer Graphics, v.23 n.9, p.935-944, August 2007  [doi>10.1007/s00371-007-0140-9]
	11	P. Lecocq , A. Kemeny , S. Michelin , D. Arquès, Mathematical Approximation for Real-Time Lighting Rendering Through Participating Media, Proceedings of the 8th Pacific Conference on Computer Graphics and Applications, p.400, October 03-05, 2000
	12	Nelson L. Max, Atmospheric illumination and shadows, ACM SIGGRAPH Computer Graphics, v.20 n.4, p.117-124, Aug. 1986
	13	K. Mitchell. Volumetric Light Scattering as a Post-Process. In GPU Gems 3, chapter 13, pages 275--285. 2007.
	14	Tomoyuki Nishita , Yasuhiro Miyawaki , Eihachiro Nakamae, A shading model for atmospheric scattering considering luminous intensity distribution of light sources, ACM SIGGRAPH Computer Graphics, v.21 n.4, p.303-310, July 1987
	15	V. Pegoraro and S. G. Parker. An Analytical Solution to Single Scattering in Homogeneous Participating Media. Computer Graphics Forum (Proceedings of Eurographics), 28(2):(to appear), 2009.
	16	K. Riley, D. S. Ebert, M. Kraus, J. Tessendorf, and C. D. Hansen. Efficient Rendering of Atmospheric Phenomena. In Eurographics Symposium on Rendering, pages 375--386, 2004.
	17	R. Siegel and J. R. Howell. Thermal Radiation Heat Transfer. Hemisphere Publishing Corporation, 1981.
	18	Bo Sun , Ravi Ramamoorthi , Srinivasa G. Narasimhan , Shree K. Nayar, A practical analytic single scattering model for real time rendering, ACM Transactions on Graphics (TOG), v.24 n.3, July 2005
	19	J. P. Willis, Visual simulation of atmospheric haze, Computer Graphics Forum, v.6 n.1, p.35-41, Jan. 1987  [doi>10.1111/j.1467-8659.1987.tb00343.x]
	20	C. Wyman and S. Ramsey. Interactive Volumetric Shadows in Participating Media with Single-Scattering. In Symposium on Interactive Ray Tracing, pages 87--92, 2008.