Bradley Kimmel
Bradley Kimmel is a Ph.D. student at the University of Waterloo, where he
received an M.Math. ('06) in Computer Science for his work on reflectance
models for particulate surfaces, and a B.Math. ('02, With Distinction) in
Computer Science and Pure Mathematics. His research involves local
illumination models of natural materials. He is also interested in
software design and distributed computing.
Masters Thesis
Publications
- Baranoski,G.V.G.; Dimson, T.; Chen,T.F.; Kimmel,B.;Yim,D.; Miranda,E.
Rapid Dissemination of Light Transport Models on the Web
IEEE Computer graphics & Applications, Volume 32, Number 3, pp. 10-15, 2012.
- Yim, D.; Baranoski, G.V.G.; Kimmel, B.W.; Chen, T.F.; Miranda, E.
A Cell-Based Light Interaction Model for Human Blood (preprint and video),
Computer Graphics Forum, Volume 31, Number 2, pp. 845-854, 2012.
(Proceedings of EUROGRAPHICS 2012, Cagliari, Italy.)
- Baranoski,G.V.G.; Kimmel,B.W.; Chen,T.F.; Yim,D.
In silico assessment of environmental factors affecting
the spectral signature of C4 plants in the visible domain
International Journal of Remote Sensing, Volume 33, Number 4, pp. 1190-1213, February, 2012.
- Kimmel,B.W.; Baranoski,G.V.G.
Simulating the Appearance of Sandy Landscapes
Computers & Graphics, Volume 34, Number 4, pp. 441-448, August, 2010.
- Kimmel,B.W.; Baranoski,G.V.G.
A Compact Framework to Efficiently Represent the Reflectance of Sand Samples
IEEE Transactions on Geoscience and Remote Sensing*, Volume 47, Number 11, pp. 3625-3629, November, 2009.
- Kimmel,B.W.; Baranoski,G.V.G.
A Practical Analytical Approach for Predicting Sand Spectral Signatures
In:Proceedings of the International Geoscience and Remote Sensing Symposium - IGARSS'08**, Boston, U.S.A., July, 2008, pp. III 668-671.
- Kimmel,B.W.; Baranoski,G.V.G.
A novel approach for simulating light interaction with particulate materials:
application to the modeling of sand spectral properties
Optics Express***, Volume 15, Issue 15, pp. 9755-9777, July, 2007.
- Baranoski,G.V.G.; Krishnaswamy,A.; Kimmel,B.
An investigation on the use of data-driven scattering profiles in Monte Carlo simulations
of ultraviolet light propagation in skin tissues
Physics in Medicine and Biology, Volume 49, Number 20, pp. 4799-4809, October, 2004.
- Baranoski,G.V.G.; Krishnaswamy,A.; Kimmel,B.
Increasing the Predictability of Tissue Subsurface Scattering Simulations
The Visual Computer, Volume 21, Number 4, pp. 265-278, May, 2005.
*According to the Thomson Scientific rankings for journal citations, this journal has the second highest impact factor in the remote sensing field in 2008.
**According to the Geoscience and Remote Sensing Society, this is the premier international event on remote sensing.
***According to the Thomson Scientific rankings for journal citations, this journal has the highest impact factor in the optics field in 2006.
Technical Reports
- Yim,D.; Baranoski,G.V.G.; Kimmel,B.; Chen,T.F.; Miranda,E.
On the Modeling of Light Interaction with Human Blood
Technical Report CS-2011-30, University of Waterloo, December 2011.
- Baranoski,G.V.G.; Krishnaswamy,A.; Kimmel,B.
Revisiting the Foundations of Subsurface Scattering
Technical Report CS-2003-45, University of Waterloo, December 2003.
Research Related Images
- SPLITS: A Spectral Light Transport Model for Sand
- A novel approach for simulating light interaction with particulate materials:
application to the modeling of sand spectral properties
- Simulating the Appearance of Sandy Landscapes (Desert)
- Simulating the Appearance of Sandy Landscapes (Beach)
Research Related Animations
(Click image to view the video)
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Simulating the Appearance of Sandy Landscapes
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