Real-time rendering of plant leaves

Subscribe (Full Service)


	Search: The ACM Digital Library The Guide

	Feedback

Real-time rendering of plant leaves

Full text

Mov (26:02), Pdf

Pdf (942 KB)

Source

ACM Transactions on Graphics (TOG) archive
Volume 24 , Issue 3 (July 2005) table of contents
Proceedings of ACM SIGGRAPH 2005

SESSION: Plants table of contents

Pages: 712 - 719

Year of Publication: 2005

ISSN:0730-0301

Also published in ...

Authors

Lifeng Wang	Microsoft Research Asia
Wenle Wang	Tsinghua University
Julie Dorsey	Yale Univrsity
Xu Yang	Nankai University
Baining Guo	Microsoft Research Asia
Heung-Yeung Shum	Microsoft Research Asia

Publisher

ACM New York, NY, USA

Bibliometrics

Downloads (6 Weeks): 28, Downloads (12 Months): 184, Citation Count: 5

Additional Information:

abstract references cited by index terms collaborative colleagues

Tools and Actions:	Review this Article Save this Article to a Binder Display Formats: BibTex EndNote ACM Ref

DOI Bookmark:	Use this link to bookmark this Article: http://doi.acm.org/10.1145/1073204.1073252 What is a DOI?

ABSTRACT

This paper presents a framework for the real-time rendering of plant leaves with global illumination effects. Realistic rendering of leaves requires a sophisticated appearance model and accurate lighting computation. For leaf appearance we introduce a parametric model that describes leaves in terms of spatially-variant BRDFs and BTDFs. These BRDFs and BTDFs, incorporating analysis of subsurface scattering inside leaf tissues and rough surface scattering on leaf surfaces, can be measured from real leaves. More importantly, this description is compact and can be loaded into graphics hardware for fast run-time shading calculations, which are essential for achieving high frame rates. For lighting computation, we present an algorithm that extends the Precomputed Radiance Transfer (PRT) approach to all-frequency lighting for leaves. In particular, we handle the combined illumination effects due to low-frequency environment light and high-frequency sunlight. This is done by decomposing the local incident radiance of sunlight into direct and indirect components. The direct component, which contains most of the high frequencies, is not pre-computed with spherical harmonics as in PRT; instead it is evaluated on-the-fly using pre-computed light-visibility convolution data. We demonstrate our framework by the rendering of a variety of leaves and assemblies thereof.

REFERENCES

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	Michael Ashikmin , Simon Premože , Peter Shirley, A microfacet-based BRDF generator, Proceedings of the 27th annual conference on Computer graphics and interactive techniques, p.65-74, July 2000 [doi>10.1145/344779.344814]
	2	Ulf Assarsson , Tomas Akenine-Möller, A geometry-based soft shadow volume algorithm using graphics hardware, ACM Transactions on Graphics (TOG), v.22 n.3, July 2003
	3	Baranoski, G. V. G., and Rokne, J. G. 1997. An algorithmic reflectance and transmittance model for plant tissue. Computer Graphics Forum 16, 3, 141--150.
	4	Baranoski, G., and Rokne, J. 2001. Efficiently simulating scattering of light by leaves. The Visual Computer 17(8), 491--505.
	5	Baranoski, G. V. G., and Rokne, J. 2002. Light Interaction with Plants. SIGGRAPH '02 Course Notes.
	6	Beckmann, P., and Spizzichino, A. 1963. The Scattering of Electromagnetic Waves from Rough Surfaces. MacMillan, New York.
	7	Jules Bloomenthal, Modeling the mighty maple, ACM SIGGRAPH Computer Graphics, v.19 n.3, p.305-311, Jul. 1985
	8	Eric Chan , Frédo Durand, Rendering fake soft shadows with smoothies, Proceedings of the 14th Eurographics workshop on Rendering, June 25-27, 2003, Leuven, Belgium
	9	R. L. Cook , K. E. Torrance, A Reflectance Model for Computer Graphics, ACM Transactions on Graphics (TOG), v.1 n.1, p.7-24, Jan. 1982 [doi>10.1145/357290.357293]
	10	Phillippe de Reffye , Claude Edelin , Jean Françon , Marc Jaeger , Claude Puech, Plant models faithful to botanical structure and developmentr, ACM SIGGRAPH Computer Graphics, v.22 n.4, p.151-158, Aug. 1988
	11	Stephen Demko , Laurie Hodges , Bruce Naylor, Construction of fractal objects with iterated function systems, Proceedings of the 12th annual conference on Computer graphics and interactive techniques, p.271-278, July 1985
	12	Oliver Deussen , Pat Hanrahan , Bernd Lintermann , Radomír Měch , Matt Pharr , Przemyslaw Prusinkiewicz, Realistic modeling and rendering of plant ecosystems, Proceedings of the 25th annual conference on Computer graphics and interactive techniques, p.275-286, July 1998 [doi>10.1145/280814.280898]
	13	Franzke, O., and Deussen, O. 2003. Accurate graphical representation of plant leaves. In Plant growth modelling and its applications, Springer-Verlag, B.-G. Hu and M. Jaeger, Eds.
	14	Martin Fuhrer , Henrik Wann Jensen , Przemyslaw Prusinkiewicz, Modeling Hairy Plants, Proceedings of the Computer Graphics and Applications, 12th Pacific Conference on (PG'04), p.217-226, October 06-08, 2004
	15	Ganapol, B., Johnson, L., Hammer, P., Hlavka, C., and Peterson. D. 1998. LEAFMOD: A new within-leaf radiative transfer model. Remote Sensing of Environment 63, 182 -- 193.
	16	Andrew Gardner , Chris Tchou , Tim Hawkins , Paul Debevec, Linear light source reflectometry, ACM Transactions on Graphics (TOG), v.22 n.3, July 2003
	17	Govaerts, Y., Verstraete, S. J. M., and Ustin, S. 1996. Three-dimensional radiation transfer modeling in a dycotyledon leaf. Applied Optics 35, 33, 6585 -- 6598.
	18	Pat Hanrahan , Wolfgang Krueger, Reflection from layered surfaces due to subsurface scattering, Proceedings of the 20th annual conference on Computer graphics and interactive techniques, p.165-174, September 1993 [doi>10.1145/166117.166139]
	19	Jacquemoud, S., and Ustin, S. 2001. Leaf optical properties: A state of the art. In Proc. 8th Int. Symp. Physical Measurements and Signatures in Remote Sensing, 223--232.
	20	James T. Kajiya, Anisotropic reflection models, ACM SIGGRAPH Computer Graphics, v.19 n.3, p.15-21, Jul. 1985
	21	Jan Kautz , Peter-Pike Sloan , John Snyder, Fast, arbitrary BRDF shading for low-frequency lighting using spherical harmonics, Proceedings of the 13th Eurographics workshop on Rendering, June 26-28, 2002, Pisa, Italy
	22	Ma, Q., Nishimura, A., Phu, P., and Kuga, Y. 1990. Transmission, reflection and depolarization of an optical wave for a single leaf. IEEE Trans. on Geoscience and Remote Sensing 28, 5 (september), 865 -- 872.
	23	Nelson Max, Hierarchical rendering of trees from precomputed multi-layer z-buffers, Proceedings of the eurographics workshop on Rendering techniques '96, p.165-174, December 1996, Porto, Portugal
	24	Alexandre Meyer , Fabrice Neyret , Pierre Poulin, Interactive Rendering of Trees with Shading and Shadows, Proceedings of the 12th Eurographics Workshop on Rendering Techniques, p.183-196, June 25-27, 2001
	25	Ren Ng , Ravi Ramamoorthi , Pat Hanrahan, All-frequency shadows using non-linear wavelet lighting approximation, ACM Transactions on Graphics (TOG), v.22 n.3, July 2003
	26	Ren Ng , Ravi Ramamoorthi , Pat Hanrahan, Triple product wavelet integrals for all-frequency relighting, ACM Transactions on Graphics (TOG), v.23 n.3, August 2004
	27	Michael Oren , Shree K. Nayar, Generalization of Lambert's reflectance model, Proceedings of the 21st annual conference on Computer graphics and interactive techniques, p.239-246, July 1994 [doi>10.1145/192161.192213]
	28	Pierre Poulin , Alain Fournier, A model for anisotropic reflection, ACM SIGGRAPH Computer Graphics, v.24 n.4, p.273-282, Aug. 1990
	29	Przemyslaw Prusinkiewicz , Aristid Lindenmayer , James Hanan, Development models of herbaceous plants for computer imagery purposes, Proceedings of the 15th annual conference on Computer graphics and interactive techniques, p.141-150, June 1988
	30	Przemyslaw Prusinkiewicz , Lars Mündermann , Radoslaw Karwowski , Brendan Lane, The use of positional information in the modeling of plants, Proceedings of the 28th annual conference on Computer graphics and interactive techniques, p.289-300, August 2001 [doi>10.1145/383259.383291]
	31	Qin, X., Nakamae, E., Tadamura, K., and Nagai, Y. 2003. Fast photo-realistic rendering of trees in daylight. Computer Graphics Forum 22, 3, 243--252.
	32	Alex Reche-Martinez , Ignacio Martin , George Drettakis, Volumetric reconstruction and interactive rendering of trees from photographs, ACM Transactions on Graphics (TOG), v.23 n.3, August 2004
	33	Siewert, C. E. 1978. The fn method for solving radiative-transfer problems in plane geometry. Astrophysics and Space Science 58, 131--137.
	34	Peter-Pike Sloan , Jan Kautz , John Snyder, Precomputed radiance transfer for real-time rendering in dynamic, low-frequency lighting environments, ACM Transactions on Graphics (TOG), v.21 n.3, July 2002
	35	Peter-Pike Sloan , Jesse Hall , John Hart , John Snyder, Clustered principal components for precomputed radiance transfer, ACM Transactions on Graphics (TOG), v.22 n.3, July 2003
	36	Cyril Soler , François X. Sillion, Fast calculation of soft shadow textures using convolution, Proceedings of the 25th annual conference on Computer graphics and interactive techniques, p.321-332, July 1998 [doi>10.1145/280814.280927]
	37	Stogryn, A. 1967. Electromagnetic scattering from rough, finitely conducting surface. Radio Sciences 2 (New Series), 4, 415--428.
	38	Torrance, K. E., and Sparrow, E. M. 1967. Theory for off-specular reflection from roughened surfaces. Journal of the Optical Society of America 57, 9 (Sept.), 1105--1114.
	39	Vogelmann, T. C. 1993. Plant tissue optics. Annual Review of Plant Physiology and Plant Molecular Biology 44, 231--251.
	40	Gregory J. Ward, Measuring and modeling anisotropic reflection, Proceedings of the 19th annual conference on Computer graphics and interactive techniques, p.265-272, July 1992
	41	Jason Weber , Joseph Penn, Creation and rendering of realistic trees, Proceedings of the 22nd annual conference on Computer graphics and interactive techniques, p.119-128, September 1995 [doi>10.1145/218380.218427]

CITED BY 5

	Julien Diener , Lionel Reveret , Eugene Fiume, Hierarchical retargetting of 2D motion fields to the animation of 3D plant models, Proceedings of the 2006 ACM SIGGRAPH/Eurographics symposium on Computer animation, September 02-04, 2006, Vienna, Austria
	Hui Xu , Nathan Gossett , Baoquan Chen, Knowledge and heuristic-based modeling of laser-scanned trees, ACM Transactions on Graphics (TOG), v.26 n.4, p.19-es, October 2007
	Long Quan , Ping Tan , Gang Zeng , Lu Yuan , Jingdong Wang , Sing Bing Kang, Image-based plant modeling, ACM Transactions on Graphics (TOG), v.25 n.3, July 2006
	Adam Runions , Martin Fuhrer , Brendan Lane , Pavol Federl , Anne-Gaëlle Rolland-Lagan , Przemyslaw Prusinkiewicz, Modeling and visualization of leaf venation patterns, ACM Transactions on Graphics (TOG), v.24 n.3, July 2005
	Jaakko Lehtinen, A framework for precomputed and captured light transport, ACM Transactions on Graphics (TOG), v.26 n.4, p.13-es, October 2007