Bradley Kimmel
Ph.D. Thesis
Master's Thesis
Publications in Journals and Conferences
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Baranoski, G.V.G.; Iwanchyshyn, M.; Kimmel, B.W; Varsa, P.M.; Van Leeuwen, S.R.
Evaluating the effects of distinct water saturation states on the light penetration depths of sand-textured soils
(Video)
Proc. of SPIE Vol. 11856, Remote Sensing for Agriculture, Ecosystems, and Hydrology XXIII,
SPIE Remote Sensing, Online Only
Eds. C.M.U. Neale and A. Maltese, pp. 118560U-1-14, September 2021.
- Baranoski, G.V.G.; Iwanchyshyn, M.; Kimmel, B.W; Varsa, P.; Van Leeuwen, S.R.
Exploring the Transmission of VNIR Light Through Martian Regolith
(Video),
Proceedings of 2021 IEEE International Geoscience & Remote Sensing Symposium - IGARSS 2021
Brussels, Belgium, pp. 6155-6158, July 12-16, 2021.
- Baranoski, G.V.G.; Iwanchyshyn, M.; Kimmel, B.W; Varsa, P.; Van Leeuwen, S.R.
On the Red to Far-Red Ratios of Light Propagated by Sand-Textured Soils
(Video),
Proceedings of 2021 IEEE International Geoscience & Remote Sensing Symposium - IGARSS 2021
Brussels, Belgium, pp. 6443-6446, July 12-16, 2021.
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Varsa, P.M.; Baranoski, G.V.G.; Kimmel, B.W.
SPLITSnow: A spectral light transport model for snow
(Errata)
Remote Sensing of Environment, Volume 255, pp. 112272:1-20, March, 2021.
- Baranoski, G.V.G.; Kimmel, B.W; Varsa, P.; Iwanchyshyn, M.
On the Light Penetration in Natural Sands
Proceedings of 2019 IEEE International Geoscience & Remote Sensing Symposium - IGARSS 2019
Yokohama, Japan, pp. 6933-6936, July 28-August 2, 2019.
- Baranoski, G.V.G.; Kimmel, B.W; Varsa, P.; Iwanchyshyn, M.
What Can Terrestrial Sand-Textured Soils Reveal About the Composition of Core Materials Forming Martian Regolith?
Proceedings of 2019 IEEE International Geoscience & Remote Sensing Symposium - IGARSS 2019
Yokohama, Japan, pp. 6015-6018, July 28-August 2, 2019.
- Baranoski, G.V.G.; Kimmel, B.W; Varsa, P.; Iwanchyshyn, M.
Porosity Effects on the Red to Far-Red Ratios of Light Transmitted in Natural Sands: Implications for Photoblastic Seed Germination
(Errata)
Proc. of SPIE, Vol. 11149, Remote Sensing for Agriculture, Ecosystems, and Hydrology XXI,
SPIE Remote Sensing, Strasbourg, France
Eds. C.M.U. Neale and A. Maltese, pp. 111490O-1-14, September, 2019.
- Baranoski, G.V.G.; Kimmel, B.W.; Varsa, P.
Assessing the Impact of Porosity Variations on the Reflectance and Transmittance of Natural Sands
Journal of Applied Remote Sensing
Volume 13, Number 2, pp. 024522:1-15, June, 2019.
- Baranoski, G.V.G.; Kimmel, B.W.
Can Porosity Affect the Hyperspectral Signature of Sandy Landscapes?
(Supplemental Information)
Proc. of SPIE, Vol. 10428, Earth Resources and Environmental Remote Sensing/GIS Applications VIII
SPIE Remote Sensing, Warsaw, Poland
Eds. U. Michel and K. Schulz, pp. 104280S-1-7, September, 2017.
- Van Leeuwen, S.R.; Baranoski, G.V.G.; Kimmel, B.W.
In Silico Investigation of the Effects of Hemolysis on the Hyperspectral Absorptance of Blood in Motion
In: Proceedings of the 39th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC),
Jeju Island, Republic of Korea, July, 2017, pp. 2724-2727.
- Van Leeuwen, S.R.; Baranoski, G.V.G.; Kimmel, B.W.
Three-Wavelength Method for the Optical Differentiation of Methemoglobin and Sulfhemoglobin in Oxygenated Blood
In: Proceedings of the 39th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC),
Jeju Island, Republic of Korea, July, 2017, pp. 4570-4573.
- Kimmel,B.W.; Baranoski,G.V.G.
Practical Acceleration Strategies for the Predictive Visualization of Fading Phenomena
Proceedings of the 29th International Conference on Computer Animation and Social Agents, Geneva, Switzerland, pp. 45-52, May, 2016.
- Chen, T.F.; Baranoski, G.V.G.; Kimmel, B.W.; Miranda, E.
Hyperspectral Modeling of Skin Appearance
(Supplemental Material & Video)
ACM Transactions on Graphics, Volume 34, Issue 3, pp 31:1-31:14, April, 2015.
(Presented at SIGGRAPH 2015.)
- Baranoski, G.V.G.; Kimmel, B.W.; Chen, T.F.; Miranda, E.
Assessing the Spectral Sensitivity of Martian Terrains to Iron Oxide Variations Using the SPLITS Model
(Supplemental Information &
Errata)
IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing
Volume 8, Number 7, pp. 3404-3413, July, 2015.
- Baranoski, G.V.G.; Kimmel, B.W.; Chen, T.F.; Miranda, E.
Influence of Sand-Grain Morphology and Iron-Oxide Distribution Patterns on the Visible and Near-Infrared Reflectance of Sand-Textured Soils
(Supplemental Information)
IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing
Volume 7, Number 9, pp. 3755-3763, September, 2014.
- Baranoski,G.V.G.; Kimmel,B.W.; Chen,T.F.; Miranda.E.
Simulating the Spectral Properties of Iron-Bearing Regions of Mars Using the SPLITS Model
(Errata)
Proceedings of 2014 IEEE International Geoscience & Remote Sensing Symposium - IGARSS 2014
Quebec City, Quebec, pp. 3013-3016, July 13-18, 2014.
- Baranoski,G.V.G.; Kimmel, B.W.; Chen, T.F.; Miranda.E.; Yim,D.
Effects of Sand Grain Shape on the Spectral Signature of Sandy Landscapes in the Visible Domain
Proceedings of
2013 IEEE International Geoscience & Remote Sensing Symposium - IGARSS 2013
Melbourne, Australia, July 21-26, 2013, pp. 3060-3063.
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- Baranoski,G.V.G.; Chen,T.F.; Kimmel,B.; Miranda,E.; Yim,D.
On the high-fidelity monitoring of C3 and C4 crops under nutrient and water stress (postprint)
2012 Asia-Pacific Remote Sensing Conference, Kyoto, Japan
Proc. of SPIE, Vol. 8524, Land Surface Remote Sensing
Eds. D. Entekhabi, Y. Honda, H. Sawada, J. Shi, pp. 85240W-1-9, 2012.
- Baranoski,G.V.G.; Chen,T.F.; Kimmel,B.; Miranda,E.; Yim,D.
On the noninvasive optical monitoring and differentiation of methemoglobinemia and sulfhemoglobinemia
(Errata for Fig. 2)
Journal of Biomedical Optics*, Volume 17, Number 9, pp. 097005-1-097005-14, 2012.
- 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 (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
(Errata for Table 1)
(Errata for Table 3)
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 (video)
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 fifth highest 5-year impact factor in the optics field in 2011.
**Acceptance rate of 25%.
***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
- Iwanchyshyn,M.Y.; Kimmel,B.W.; Baranoski,G.V.G.
Revisiting the SPLITS Model: Towards an Enhanced Implementation
Technical Report CS-2020-01, University of Waterloo, February 2019.
- Van Leeuwen,S.R.; Baranoski,G.V.G.; Kimmel,B.W.
Revisiting the CLBlood Model: Formulation Enhancements and Online Deployment
Technical Report CS-2017-01, University of Waterloo, February 2017.
- Chen, T.F.; Baranoski, G.V.G.; Kimmel, B.W.; Miranda, E.
On the Hyperspectral Modeling of Light Interaction with Human Skin
Technical Report CS-2013-14, School of Computer Science, University of Waterloo, December 2013.
- Baranoski,G.V.G.; Chen,T.F.; Kimmel,B.; Miranda,E.; Yim,D.
In Silico Spectral Investigation of Methemoglobin and Sulfhemoglobin Effects on Human Skin Reflectance
Technical Report CS-2012-09, University of Waterloo, June 2012.
- 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)
- Simulating Spectral Appearance Changes due to Light Exposure
Research Related Videos
(Click image to view the video)
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Simulating the Spectral Appearance Changes Induced by Light Exposure
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Simulating the Appearance of Sandy Landscapes
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