@TechReport{Magnusson:1941:MSL,
author = P. Magnusson,
title = Methods for Solving Linear Inhomogeneous Integral
Equations Arising in Interreflection Problems,
type = D.Sc. thesis,
institution = Massachusetts Institute of Technology,
address = Cambridge, MA,
year = 1941,
keywords = interreflections, radiosity equation,
bibsource = sig-11-1994,
}
@InCollection{Preisendorfer:1965:RTD,
author = R. W. Preisendorfer,
title = Radiative Transfer on Discrete Spaces,
publisher = Pergamon Press,
address = Oxford, England,
year = 1965,
note = a radiosity theoretician's delight,
keywords = radiative transfer theory, radiosity,
bibsource = sig-11-1994,
}
@Article{Brackett:1983:IPP,
author = William E. Brackett and Wayne L. Fink and William
Pierpoint,
title = Interior Point-by-point Calculations in Obstructed
Spaces,
journal = Journal of the Illuminating Engineering Society,
volume = 12,
number = 1,
pages = 14--25,
month = oct,
year = 1983,
keywords = ray tracing, radiosity equation, exitance, flux
transfer, form factor determination,
bibsource = sig-11-1994,
}
@InProceedings{Goral:1984:MIL,
author = Cindy M. Goral and Kenneth E. Torrance and Donald P.
Greenberg and Bennett Battaile,
booktitle = Computer Graphics (SIGGRAPH '84 Proceedings),
title = Modelling the Interaction of Light Between Diffuse
Surfaces,
volume = 18,
number = 3,
pages = 212--22,
month = jul,
year = 1984,
keywords = shading, diffuse reflection, radiosity,
bibsource = sig-11-1994,
}
@InProceedings{Cohen:1985:HCR,
author = Michael F. Cohen and Donald P. Greenberg,
title = The Hemi-Cube: A Radiosity Solution for Complex
Environments,
year = 1985,
month = aug,
volume = 19,
booktitle = Computer Graphics (SIGGRAPH '85 Proceedings),
pages = 31--40,
editor = B. A. Barsky,
}
@MastersThesis{Cohen:1985:RMR,
author = Michael Cohen,
title = A Radiosity Method for the Realistic Image Synthesis
of Complex Diffuse Environments,
type = Master's Thesis,
school = Program of Computer Graphics, Cornell Univ.,
month = aug,
year = 1985,
bibsource = sig-11-1994,
}
@InProceedings{Nishita:1985:CTRa,
author = Tomoyuki Nishita and Eihachiro Nakamae,
title = Continuous Tone Representation of Three-Dimensional
Objects Taking Account of Shadows and Interreflection,
pages = 23--30,
booktitle = Computer Graphics (SIGGRAPH '85 Proceedings),
volume = 19,
year = 1985,
month = jul,
editor = B. A. Barsky,
conference = held in San Francisco, CA; 22--26 July 1985,
keywords = I37 continuous tone representations, I30 picture
processing, radiosity visible,
}
@Article{Baum:1986:BBA,
author = Daniel R. Baum and John R. Wallace and Michael F.
Cohen and Donald P. Greenberg,
title = The Back-Buffer Algorithm: An Extension of the
Radiosity Method to Dynamic Environments,
journal = The Visual Computer,
volume = 2,
number = 5,
pages = 298--306,
month = sep,
year = 1986,
keywords = animation,
bibsource = sig-11-1994,
}
@Article{Cohen:1986:ERA,
author = Michael Cohen and Donald P. Greenberg and Dave S.
Immel and Philip J. Brock,
title = An Efficient Radiosity Approach for Realistic Image
Synthesis,
journal = IEEE Computer Graphics and Applications,
volume = 6,
number = 3,
pages = 26--35,
month = mar,
year = 1986,
bibsource = sig-11-1994,
}
@Article{Greenberg:1986:RMC,
author = Donald P. Greenberg and Michael Cohen and Kenneth E.
Torrance,
title = Radiosity: A Method for Computing Global
Illumination,
journal = The Visual Computer,
volume = 2,
number = 5,
pages = 291--7,
month = sep,
year = 1986,
bibsource = sig-11-1994,
}
@InProceedings{Immel:1986:RMN,
author = David S. Immel and Michael F. Cohen and Donald P.
Greenberg,
title = A Radiosity Method for Non-Diffuse Environments,
pages = 133--142,
booktitle = Computer Graphics (SIGGRAPH '86 Proceedings),
volume = 20,
year = 1986,
month = aug,
editor = David C. Evans and Russell J. Athay,
conference = held in Dallas, Texas, August 18--22, 1986,
keywords = I37 radiosity, I37 reflectance, bi-directional, I37
hidden-surface elimination, I37 non-diffuse reflection,
radiosity, shading,
}
@InProceedings{Kajiya:1986:RE,
author = James T. Kajiya,
title = The Rendering Equation,
pages = 143--150,
booktitle = Computer Graphics (SIGGRAPH '86 Proceedings),
volume = 20,
year = 1986,
month = aug,
editor = David C. Evans and Russell J. Athay,
conference = held in Dallas, Texas, August 18--22, 1986,
keywords = I37 rendering, I37 ray tracing, I37 radiosity,
shading, diffuse reflection, radiosity,
annote = We present an integral equation which generalizes a
variety of known rendering algorithms. In the course of
discussing a Monte Carlo solution a new form of
variance reduction is presented, called hierarchical
sampling, and a number of elaborations are given that
show that it may be an efficient new technique for a
wide variety of Monte Carlo procedures. The resulting
rendering algorithm extends the range of optical
phenomena which can be effectively simulated.,
}
@MastersThesis{Rushmeier:1986:ERM,
author = Holly E. Rushmeier,
title = Extending the Radiosity Method to Transmitting and
Specularly Reflecting Surfaces,
type = Master's Thesis,
school = Program of Computer Graphics, Cornell Univ.,
year = 1986,
note = longer version of paper,
bibsource = sig-11-1994,
}
@InProceedings{Chattopadhyay:1987:BDR,
author = Sudeb Chattopadhyay and Akira Fujimoto,
editor = Tosiyasu L. Kunii,
booktitle = Computer Graphics 1987 (Proceedings of CG
International '87),
title = Bi-directional Ray Tracing,
publisher = Springer-Verlag,
address = Tokyo,
pages = 335--43,
year = 1987,
bibsource = sig-11-1994,
keywords = shading, radiosity,
}
@InProceedings{Rushmeier:1987:ZMC,
author = Holly E. Rushmeier and Kenneth E. Torrance,
title = The Zonal Method for Calculating Light Intensities in
the Presence of a Participating Medium,
pages = 293--302,
booktitle = Computer Graphics (SIGGRAPH '87 Proceedings),
volume = 21,
year = 1987,
month = jul,
editor = Maureen C. Stone,
conference = held in Anaheim, California; 27 -- 31 July 1987,
keywords = clouds, light scattering, participating media,
radiative transport, radiosity, zonal method, haze,
annote = ,
}
@InProceedings{Wallace:1987:TPSa,
author = John R. Wallace and Michael F. Cohen and Donald P.
Greenberg,
title = A Two-Pass Solution to the Rendering Equation: A
Synthesis of Ray Tracing and Radiosity Methods,
pages = 311--320,
booktitle = Computer Graphics (SIGGRAPH '87 Proceedings),
volume = 21,
year = 1987,
month = jul,
editor = Maureen C. Stone,
conference = held in Anaheim, California; 27 -- 31 July 1987,
keywords = radiosity, distributed ray tracing, z-buffer, global
illumination, view-dependence, view-independence,
annote = View-independent and view-dependent image synthesis
techniques, represented by radiosity and ray tracing,
respectively, are discussed. View-dependent techniques
are found to have disadvantages for calculating the
specular component of illumination and view-independent
techniques for the diffuse component. Based on these
observations a methodology is presented for simulating
global illumination within complex enviroments using a
two-pass approach. The first pass is view-independent
and is based on the hemi-cube radiosity algorithm, with
extensions to include the diffuse reflection and
transmission. The second pass is view-dependent and is
based on an alternative to distributed ray tracing in
which a z-buffer algorithm is used to sample
intensities contributing to the specularly reflected or
transmitted intensity.,
}
@InProceedings{Cohen:1988:PRA,
author = Michael F. Cohen and Shenchang Eric Chen and John R.
Wallace and Donald P. Greenberg,
title = A Progressive Refinement Approach to Fast Radiosity
Image Generation,
year = 1988,
month = aug,
volume = 22,
booktitle = Computer Graphics (SIGGRAPH '88 Proceedings),
pages = 75--84,
editor = John Dill,
}
@Article{DiLaura:1988:VAC,
author = David L. DiLaura and D. P. Igoe and P. G. Samaras and
A. M. Smith,
title = Verifying the Applicability of Computer Generated
Pictures to Lighting Design,
journal = Journal of the Illuminating Engineering Society,
volume = 17,
number = 1,
pages = 36--61,
month = Winter,
year = 1988,
keywords = radiosity validation,
bibsource = sig-11-1994,
}
@TechReport{Hamid:1988:RMa,
author = Tariq P. Hamid,
title = The Radiosity Model,
year = 1988,
month = may,
number = Project Report,
institution = Dept. of Computer Science, Univ. of Glasgow,
}
@InProceedings{Shao:1988:FFG,
author = Ping-Ping Shao and Qun-Sheng Peng and You-Dong Liang,
title = Form-factors for general environments,
pages = 499--510,
booktitle = Eurographics '88,
year = 1988,
month = sep,
editor = D. A. Duce and P. Jancene,
publisher = North-Holland,
conference = European Computer Graphics Conference and Exhibition;
held in Nice, France; 12 -- 16 September 1988,
keywords = radiosity, specular form-factors,
annote = ,
}
@InProceedings{Shao:1988:NRA,
author = Min-Zhi Shao and Qun-Sheng Peng and You-Dong Liang,
title = A New Radiosity Approach by Procedural Refinements for
Realistic Image Synthesis,
pages = 93--101,
booktitle = Computer Graphics (SIGGRAPH '88 Proceedings),
volume = 22,
year = 1988,
month = aug,
editor = John Dill,
conference = held in Atlanta, Georgia; 1-5 August 1988,
keywords = distributed ray tracing, form-factors, global
illumination, hemi-cube, procedural iteration,
progressive refinement, radiosity,
annote = ,
}
@MastersThesis{Wallace:1988:TPS,
author = John R. Wallace,
title = A Two-Pass Solution to the Rendering Equation: A
Synthesis of Ray Tracing and Radiosity Methods,
type = Master's Thesis,
school = Program of Computer Graphics, Cornell Univ.,
month = jan,
year = 1988,
note = longer version of paper,
keywords = stochastic sampling, z-buffer,
bibsource = sig-11-1994,
}
@InProceedings{Ward:1988:RTS,
author = Gregory J. Ward and Francis M. Rubinstein and Robert
D. Clear,
title = A Ray Tracing Solution for Diffuse Interreflection,
pages = 85--92,
booktitle = Computer Graphics (SIGGRAPH '88 Proceedings),
volume = 22,
year = 1988,
month = aug,
editor = John Dill,
conference = held in Atlanta, Georgia; 1-5 August 1988,
keywords = caching, diffuse, illuminance, interreflection,
luminance, Monte Carlo technique, radiosity, ray
tracing, rendering, specular,
}
@TechReport{Airey:1989:TAT,
author = John M. Airey and M. Ouh-young,
title = Two Adaptive Techniques Let Progressive Radiosity
Outperform the Traditional Radiosity Algorithm,
year = 1989,
number = R89-020,
type = Technical Report,
institution = Univ. of North Carolina Department of Computer
Science,
}
@InProceedings{Baum:1989:IRS,
author = Daniel R. Baum and Holly E. Rushmeier and James M.
Winget,
title = Improving Radiosity Solutions Through the Use of
Analytically Determined Form-Factors,
pages = 325--334,
booktitle = Computer Graphics (SIGGRAPH '89 Proceedings),
volume = 23,
year = 1989,
month = jul,
editor = Jeffrey Lane,
conference = held in Boston, Massachusetts; 31 July -- 4 August
1989,
keywords = analytical form-factor, global illumination,
progressive refinement, radiosity, Z-buffer,
annote = ,
}
@InCollection{Bresciani:1989:ACD,
author = F. Bresciani and P. P. Rinaldi and F. Tapparo,
booktitle = Workstations for Experiments,
title = Applications and Comparisons of Different Mathematical
Methods to Compute Form Factors for Radiosity Images,
publisher = Springer-Verlag,
address = Berlin, Germany,
year = 1989,
keywords = form factors,
bibsource = sig-11-1994,
}
@InProceedings{Buckalew:1989:INF,
author = Chris Buckalew and Donald Fussell,
title = Illumination Networks: Fast Realistic Rendering with
General Reflectance Functions,
pages = 89--98,
booktitle = Computer Graphics (SIGGRAPH '89 Proceedings),
volume = 23,
year = 1989,
month = jul,
editor = Jeffrey Lane,
conference = held in Boston, Massachusetts; 31 July -- 4 August
1989,
keywords = global illumination, radiosity, ray tracing, memory,
specular, diffuse, data structure, incremental, ray
space,
annote = ,
}
@MastersThesis{Chen:1989:PRM,
author = Shenchang Eric Chen,
title = A Progressive Radiosity Method and its Implementation
in a Distributed Processing Environment,
year = 1989,
month = jan,
school = Program of Computer Graphics, Cornell Univ.,
keywords = parallelism,
}
@MastersThesis{Dugger:1989:PRM,
author = James G. Dugger, Jr.,
title = Parallelization of the radiosity model,
month = jun,
year = 1989,
type = M.Sc. Thesis,
school = Department of Computer Science, Southern Illinois
University,
keywords = radiosity, parallel processing, illumination,
annote = Supervisor: Michael S. Wainer,
}
@TechReport{Goldfeather:1989:PRU,
author = Jack Goldfeather,
title = Progressive Radiosity Using Hemispheres,
type = Technical Report,
number = TR89-002,
institution = University of North Carolina at Chapel Hill Dept. of
Computer Science,
year = 1989,
bibsource = sig-11-1994,
}
@InCollection{Greenberg:1989:R,
author = Donald P. Greenberg and Michael Cohen and Roy Hall and
Holly Rushmeier and John Wallace,
title = Radiosity,
booktitle = SIGGRAPH '89 Radiosity Course Notes,
year = 1989,
month = jul,
annote = includes new material and article reprints,
}
@InCollection{Greenberg:1989:SRC,
author = Donald P. Greenberg and Michael Cohen and Roy Hall and
Holly Rushmeier and John Wallace,
title = SIGGRAPH '89 Radiosity course notes,
month = jul,
year = 1989,
note = includes new material and article reprints,
bibsource = sig-11-1994,
}
@InProceedings{Greene:1989:VSA,
author = Ned Greene,
title = Voxel Space Automata: Modeling with Stochastic Growth
Processes in Voxel Space,
pages = 175--184,
booktitle = Computer Graphics (SIGGRAPH '89 Proceedings),
volume = 23,
year = 1989,
month = jul,
editor = Jeffrey Lane,
conference = held in Boston, Massachusetts; 31 July -- 4 August
1989,
keywords = voxel, automata, stochastic processes, illumination,
heliotropism, radiosity,
annote = ,
}
@InProceedings{Hanrahan:1989:RHR,
author = P. Hanrahan and D. Salzman,
title = A rapid hierarchical radiosity algorithm for
unoccluded environments,
pages = ,
booktitle = Eurographics Workshop on Photosimulation, Realism and
Physics in Computer Graphics,
year = 1989,
conference = held in Rennes, France; 11-13 June 1989,
keywords = form-factor calculations,
annote = Present a significantly different approach to
form-factor calculation and actually provide new
insight into radiosity. It introduces the N-body
approach to efficiently deal with the patches
interaction problem through the use of a hierarchical
data structure.,
}
@InProceedings{Kok:1989:TPR,
author = A. J. F. Kok and A. C. Yilmaz and L. H. J. Bierens,
title = A two-pass radiosity method for Bezier patches,
pages = ,
booktitle = Eurographics Workshop on Photosimulation, Realism and
Physics in Computer Graphics,
year = 1989,
conference = held in Rennes, France; 11-13 June 1989,
keywords = photometric algorithms,
annote = extended radiosity approach to deal with Bezier
patches and specular reflections,
}
@InProceedings{Neumann:1989:ERM,
author = L. Neumann and A. Neumann,
title = Efficient radiosity methods for non-separable
reflectance models,
pages = ,
booktitle = Eurographics Workshop on Photosimulation, Realism and
Physics in Computer Graphics,
year = 1989,
conference = held in Rennes, France; 11-13 June 1989,
keywords = theory of global illumination models,
annote = ,
}
@InProceedings{Price:1989:RP,
author = Martin Price and Greg Truman,
title = Radiosity in Parallel,
booktitle = Applications of Transputers (Proceedings of the First
International Conference on Applications of
Transputers,
pages = 40--47,
year = 1989,
month = aug,
publisher = IOS Press,
keywords = parallel processing,
annote = Parallel implementation of radiosity on a network of
transputers. Performance increases linearly with the
number of processors.,
}
@InProceedings{Purgathofer:1989:FRP,
author = W. Purgathofer and M. Zeiller,
title = Fast radiosity by parallelization,
pages = ,
booktitle = Eurographics Workshop on Photosimulation, Realism and
Physics in Computer Graphics,
year = 1989,
conference = held in Rennes, France; 11-13 June 1989,
keywords = form-factor calculations,
annote = Form-factors and the solutions of the linear system of
equations are computed independently on several
processors (transputers).,
}
@InProceedings{Saec:1989:PRT,
author = B. Le Saec and C. Schlick,
title = A progressive ray tracing based radiosity with general
reflectance functions,
pages = ,
booktitle = Eurographics Workshop on Photosimulation, Realism and
Physics in Computer Graphics,
year = 1989,
conference = held in Rennes, France; 11-13 June 1989,
keywords = photometric algorithms,
annote = ,
}
@InProceedings{Schuierer:1989:DTR,
author = S. Schuierer,
editor = W. Hansmann and F. R. A. Hopgood and W. Strasser,
booktitle = Proceedings of Eurographics '89,
title = Delaunay Triangulation and the Radiosity Approach,
publisher = Elsevier Science Publishers,
pages = 345--353,
year = 1989,
keywords = Delaunay triangulation, meshing,
bibsource = sig-11-1994,
}
@InProceedings{Shen:1989:NSP,
author = L. S. Shen and E. Deprettere and P. Dewilde,
title = A new space partition technique to support a highly
pipelined parallel architecture for the radiosity
method,
pages = ,
booktitle = Fifth Eurographics Workshop on Graphics Hardware,
year = 1989,
editor = D. Grimsdale and A. Kaufman,
conference = held in Lausanne, Switzerland; 2-3 September 1989,
keywords = hardware,
annote = Present a novel stochastic shelling technique for
space partition in the radiosity method to support
parallel processing.,
}
@InProceedings{Sillion:1989:GTP,
author = Francois X. Sillion and Claude Puech,
title = A General Two-Pass Method Integrating Specular and
Diffuse Reflection,
pages = 335--344,
booktitle = Computer Graphics (SIGGRAPH '89 Proceedings),
volume = 23,
year = 1989,
month = jul,
editor = Jeffrey Lane,
conference = held in Boston, Massachusetts; 31 July -- 4 August
1989,
keywords = radiosity, interreflection, two-pass method, extended
form factors, z-buffer, progressive refinement, global
illumination, ray tracing,
annote = We analyze some recent approaches to the global
illumination problem by introducing the corresponding
\em reflection operators, and we demonstrate the
advantages of a two-pass method. A generalization of
this system introduced by Wallace \em et al.\ at
Siggraph '87 to integrate diffuse as well as specular
reflection is presented. It is based on the calculation
of \em extended form-factors, which allows arbitrary
geometries to be used in the scene description, as well
as refraction effects. We also present a new sampling
method for the calculation of form-factors, which is an
alternative to the \em hemi-cube technique introduced
by Cohen and Greenberg for radiosity calculations. This
method is particularly well suited to the extended
form-factors calculation. The problem of interactive
display of the picture being created is also addressed
by using hardware-assisted projections and image
composition to recreate a complete specular view of the
scene.,
}
@InProceedings{Vilaplana:1989:ECC,
author = J. Vilaplana and X. Pueyo,
title = Exploiting coherence for clipping and view
transformation in radiosity algorithm,
pages = ,
booktitle = Eurographics Workshop on Photosimulation, Realism and
Physics in Computer Graphics,
year = 1989,
conference = held in Rennes, France; 11-13 June 1989,
keywords = form-factor calculations,
annote = Present some techniques which take advantage of
several kinds of coherence in order to speed up the
clipping and view transformation steps involved in
form-factor calculation using the hemicube approach.,
}
@InProceedings{Wallace:1989:RTA,
author = John R. Wallace and Kells A. Elmquist and Eric A.
Haines,
title = A Ray Tracing Algorithm for Progressive Radiosity,
year = 1989,
month = jul,
volume = 23,
booktitle = Computer Graphics (SIGGRAPH '89 Proceedings),
pages = 315--324,
keywords = radiosity,
editor = Jeffrey Lane,
}
@InProceedings{Wallace:1989:TRI,
author = John Wallace,
title = Trends in radiosity for image synthesis,
pages = ,
booktitle = Eurographics Workshop on Photosimulation, Realism and
Physics in Computer Graphics,
year = 1989,
conference = held in Rennes, France; 11-13 June 1989,
keywords = ,
annote = ,
}
@Book{Watt:1989:FTD,
author = Alan Watt,
title = Fundamentals of Three-Dimensional Computer Graphics,
year = 1989,
publisher = Addison-Wesley,
address = Wokingham, England,
keywords = radiosity, stochastic sampling,
}
@InCollection{Xu:1989:ARM,
author = Hau Xu and Qun-Shang Peng and You-Dong Liang,
title = Accelerated Radiosity Method for Complex
Environments,
booktitle = Eurographics '89,
pages = 51--61,
year = 1989,
publisher = Elsevier Science Publishers,
annote = Partitions object space for solutions in subdomains,
}
@InProceedings{Airey:1990:TIR,
author = John M. Airey and John H. Rohlf and Frederick P.
Brooks, Jr.,
title = Towards Image Realism with Interactive Update Rates in
Complex Virtual Building Environments,
pages = 41--50,
journal = Computer Graphics (1990 Symposium on Interactive 3D
Graphics),
volume = 24,
number = 2,
year = 1990,
month = mar,
editor = Rich Riesenfeld and Carlo Sequin,
conference = held in Snowbird, Utah; 25-28 March 1990,
keywords = model-space subdivision, potentially visible,
radiosity, adaptive refinement,
annote = ,
}
@InProceedings{Arvo:1990:PTI,
author = James Arvo and David B. Kirk,
title = Particle Transport and Image Synthesis,
pages = 63--66,
booktitle = Computer Graphics (SIGGRAPH '90 Proceedings),
volume = 24,
year = 1990,
month = aug,
editor = Forest Baskett,
conference = held in Dallas, Texas; 6-10 August 1990,
keywords = Boltzmann equation, Monte Carlo, particle transport,
radiosity, ray tracing, rendering equation,
annote = The rendering equation is similar to the linear
Boltzmann equation which has been widely studied in
physics and nuclear engineering. Consequently, many of
the powerful techniques which have been developed in
these fields can be applied to problems in image
synthesis. In this paper we adapt several statistical
techniques commonly used in neutron transport to
stachastic ray tracing and, more generally, to Monte
Carlo solution of the rendering equation. First, we
describe a technique known as \em Russian roulette
which can be used to terminate the recursive tracing of
rays without introducing statistical bias. We also
examine the practice of creating ray trees in classical
ray tracing in the light of a well-known technique in
particle transport known as \em splitting. We show
that neither ray trees nor paths as described in
[Kaj86] constitute an optimal sampling plan in
themselves and that a hybrid may be more efficient.,
}
@InProceedings{Baum:1990:RTR,
author = Daniel R. Baum and James M. Winget,
title = Real Time Radiosity Through Parallel Processing and
Hardware Acceleration,
pages = 67--75,
booktitle = Computer Graphics (1990 Symposium on Interactive 3D
Graphics),
volume = 24,
number = 2,
year = 1990,
month = mar,
editor = Rich Riesenfeld and Carlo Sequin,
conference = held in Snowbird, Utah; 25-28 March 1990,
keywords = ,
annote = ,
}
@InCollection{Chen:1990:ASP,
author = Hong Chen and En-Hua Wu,
title = An Adapted Solution of Progressive Radiosity and
Ray-Tracing Methods for Non-Diffuse Environments,
year = 1990,
booktitle = CG International '90: Computer Graphics Around the
World,
editor = T. S. Chua and T. L. Kunii,
publisher = Springer-Verlag,
pages = 477--90,
address = New York,
}
@InProceedings{Chen:1990:ERS,
author = Hong Chen and En-Hua Wu,
title = An Efficient Radiosity Solution for Bump Texture
Generation,
year = 1990,
month = aug,
editor = Forest Baskett,
volume = 24,
booktitle = Computer Graphics (SIGGRAPH '90 Proceedings),
pages = 125--134,
keywords = texture mapping,
}
@InProceedings{Chen:1990:IRE,
author = Shenchang Eric Chen,
title = Incremental Radiosity: An Extension of Progressive
Radiosity to an Interactive Image Synthesis System,
pages = 135--144,
booktitle = Computer Graphics (SIGGRAPH '90 Proceedings),
volume = 24,
year = 1990,
month = aug,
editor = Forest Baskett,
conference = held in Dallas, Texas; 6-10 August 1990,
keywords = radiosity, incremental rendering, incremental
radiosity, global illumination, lighting design,
progressive radiosity,
annote = ,
}
@MastersThesis{George:1990:RRA,
author = David W. George,
title = A Radiosity Redistribution Algorithm for Dynamic
Environments,
year = 1990,
month = aug,
school = Program of Computer Graphics, Cornell Univ.,
keywords = animation,
}
@Article{George:1990:RRD,
author = David W. George and Francois X. Sillion and Donald P.
Greenberg,
title = Radiosity Redistribution for Dynamic Environments,
journal = IEEE Computer Graphics and Applications,
pages = 26--34,
volume = 10,
number = 4,
month = jul,
year = 1990,
keywords = radiosity, animation, interaction, shadow, negative
radiosity,
annote = They present a modification to the progressive
radiosity to allow faster radiosity computation for
animation sequences where objects can be added, moved,
removed or their surface changed properties. When an
object is added, radiosity is shot onto these new
patches. A shadow volume is determined and a negative
radiosity is shot to the patches in shadow. When an
object is moved, it is removed from the scene and added
to the new position, the radiosity being recomputed at
each step. The radiosity recomputed is based on two
strategies: redistribute first or interleave
redistribution and propagation. Some heuristics are
presented to choose the most important patches. This
solution is good when just a few objects are involved
but as the complexity of the scenes and mostly moving
objects increases, the algorithm lost of its
interest.,
}
@InCollection{Greenberg:1990:SRC,
author = Donald P. Greenberg and Michael Cohen and Dave George
and Holly Rushmeier and John Wallace and Greg Ward,
title = SIGGRAPH '90 Radiosity course notes,
month = aug,
year = 1990,
bibsource = sig-11-1994,
}
@MastersThesis{Hall:1990:AMS,
author = David E. Hall,
title = An analysis and modification of Shao's radiosity
method for computer graphics image synthesis,
month = mar,
year = 1990,
type = M.Sc. Thesis,
school = The George W. Woodruff of Mechanical Engineering,
Georgia Institute of Technology,
keywords = radiosity, global illumination,
annote = Supervisor: Holly Rushmeier,
}
@InProceedings{Hanrahan:1990:RHRa,
author = Pat Hanrahan and David Salzman,
title = A Rapid Hierarchical Radiosity Algorithm for
Unoccluded Environments,
year = 1990,
month = jun,
booktitle = Proceedings Eurographics Workshop on Photosimulation,
Realism and Physics in Computer Graphics,
pages = 151--71,
address = Rennes, France,
}
@TechReport{Hanrahan:1990:RHRb,
author = Pat Hanrahan and David Salzman,
title = A Rapid Hierarchical Radiosity Algorithm for
Unoccluded Environments,
type = Technical Report,
number = CS-TR-281-90,
institution = Princeton University,
address = Princeton, NJ,
year = 1990,
bibsource = sig-11-1994,
}
@InProceedings{Heckbert:1990:ART,
author = Paul S. Heckbert,
title = Adaptive Radiosity Textures for Bidirectional Ray
Tracing,
year = 1990,
month = aug,
volume = 24,
editor = Forest Baskett,
booktitle = Computer Graphics (SIGGRAPH '90 Proceedings),
pages = 145--154,
keywords = density estimation, texture mapping, quadtree,
adaptive subdivision, sampling,
}
@InProceedings{Hermitage:1990:HAR,
author = Shirley A. Hermitage and Terrance L. Huntsberger and
Beverly A. Huntsberger,
title = Hypercube Algorithm for Radiosity in a Ray Tracing
Environment,
pages = 206--211,
booktitle = Proceedings of the 5th Distributed Memory Computing
Conference,
year = 1990,
organization = IEEE,
keywords = ,
annote = Two different approaches to realistic image synthesis
are ray tracing and radiosity. Each method falls short
in their attempts to model global illumination present
in most environments. A more general model includes the
specular and diffuse reflection of both these methods
but the combination requires prohibitive computation.
\\ The algorithm presented here extends the standard
ray tracing algorithm by adding diffuse rays, while
eliminating unnecessary radiosity calculations. The
data separation used here is based on the heuristic
that light rays, as well as shadow rays intersect
objects which are nearby more often than those that are
more distant. Although that heuristic seems sound, its
accuracy is being tested by monitoring the results of
processing large number of different scenes of various
complexity.,
}
@InProceedings{Kok:1990:TPR,
author = Arjan J. F. Kok and Celal Yilmaz and Laurens H. J.
Bierens,
title = A Two-Pass Radiosity Method for Bezier Patches,
year = 1990,
month = jun,
booktitle = Proceedings Eurographics Workshop on Photosimulation,
Realism and Physics in Computer Graphics,
pages = 117--26,
address = Rennes, France,
}
@InProceedings{Marks:1990:IIC,
author = Joseph Marks and Robert Walsh and Jon Christensen and
Mark Friedell,
title = Image and Intervisibility Coherence in Rendering,
pages = 17--30,
booktitle = Proceedings of Graphics Interface '90,
year = 1990,
month = may,
conference = held in Halifax, Nova Scotia; 14-18 May 1990,
keywords = image rendering, image coherence, intervisibility
coherence, projective rendering, ray tracing,
radiosity,
annote = ,
}
@InProceedings{Neumann:1990:ERM,
author = Laszlo Neumann and Attila Neumann,
title = Efficient Radiosity Methods for Non-Separable
Reflectance Models,
year = 1990,
month = jun,
booktitle = Proceedings Eurographics Workshop on Photosimulation,
Realism and Physics in Computer Graphics,
pages = 83--102,
address = Rennes, France,
}
@InProceedings{Puech:1990:IIR,
author = Claude Puech and Francois Sillion and Christophe
Vedel,
title = Improving Interaction with Radiosity-based Lighting
Simulation Programs,
pages = 51--57,
booktitle = Computer Graphics (1990 Symposium on Interactive 3D
Graphics),
volume = 24,
number = 2,
year = 1990,
month = mar,
editor = Rich Riesenfeld and Carlo Sequin,
conference = held in Snowbird, Utah; 25-28 March 1990,
keywords = interation, lighting simulation, radiosity,
interreflection, z-buffer, progressive refinement,
global illumination, distributed computing, negative
light,
annote = ,
}
@InProceedings{Purgathofer:1990:FRP,
author = Werner Purgathofer and Michael Zeiller,
title = Fast Radiosity by Parallelization,
year = 1990,
month = jun,
booktitle = Proceedings Eurographics Workshop on Photosimulation,
Realism and Physics in Computer Graphics,
pages = 173--83,
address = Rennes, France,
keywords = parallelism,
}
@InProceedings{Recker:1990:ATP,
author = Rodney J. Recker and David W. George and Donald P.
Greenberg,
title = Acceleration Techniques for Progressive Refinement
Radiosity,
pages = 59--66,
booktitle = Computer Graphics (1990 Symposium on Interactive 3D
Graphics),
volume = 24,
number = 2,
year = 1990,
month = mar,
editor = Rich Riesenfeld and Carlo Sequin,
conference = held in Snowbird, Utah; 25-28 March 1990,
keywords = radiosity, progressive refinement, item buffer, global
illumination, coarse-grain parellelism,
annote = ,
}
@MastersThesis{Recker:1990:ITP,
author = Rodney J. Recker,
title = Improved Techniques for Progressive Refinement
Radiosity,
year = 1990,
month = jan,
school = Program of Computer Graphics, Cornell Univ.,
}
@Article{Rushmeier:1990:ERM,
author = Holly E. Rushmeier and Kenneth E. Torrance,
title = Extending the Radiosity Method to Include Specularly
Reflecting and Translucent Materials,
journal = ACM Transactions on Graphics,
pages = 1--27,
volume = 9,
number = 1,
month = jan,
year = 1990,
keywords = backward form factor, forward form factor, global
illumination, image synthesis, radiosity, ray tracing,
annote = An extension to the radiosity method is presented that
rigorously accounts for the presence of a small number
of specularly reflecting surfaces in an otherwise
diffuse scene, and for the presence of a small number
of specular or ideal diffuse transmitter. The
relationship between the extended method and earlier
radiosity and ray-tracing methods is outlined. It is
shown that all three methods are based on the same
general equation of radiative transfer. A simple
superposition of the earlier radiosity and ray-tracing
methods in order to account for specular behavior is
shown to be physically inconsistent, as the methods are
based on different assumptions. Specular behavior is
correctly included in the present method. The extended
radiosity method and example images are presented.,
}
@InProceedings{Saec:1990:PRTa,
author = Betrand Le Saec and Christophe Schlick,
title = A Progressive Ray-Tracing-Based Radiosity with General
Reflectance Functions,
year = 1990,
month = jun,
booktitle = Proceedings Eurographics Workshop on Photosimulation,
Realism and Physics in Computer Graphics,
pages = 103--16,
address = Rennes, France,
}
@TechReport{Saec:1990:PRTb,
author = Bertrand Le Saec and Christophe Schlick,
title = A Progressive Ray-Tracing-Based Radiosity with General
Reflectance Functions,
year = 1990,
type = Technical Report,
number = 90-17,
institution = Laboratoire Bordelais de Recherche en Informatique,
Universite de Bordeaux I,
annote = Also appears in Proceedings Eurographics Workshop on
Photosimulation, Realism and Physics in Computer
Graphics, June 1990, p. 103-116. \\ In this paper, we
present a progressive and interactive rendering method
able to solve the global illumination problem. Our
method, currently under implementation at LaBRI, in
Bordeaux (France), can be considered as an extension of
Wallace's recent paper at the SIGGRAPH '89 conference
about a Progressive Ray-Tracing-based Radiosity. The
method is intended to remove the purely diffuse
phenomena limitations that exists in Wallace's paper
and allow the use of general reflectance functions.,
}
@InProceedings{Shen:1990:NSPa,
author = Li-Sheng Shen and Ed Deprettere and P. Dewilde,
title = A New Space Partitioning Technique to Support a Highly
Pipelined Architecture for the Radiosity Method,
year = 1990,
month = sep,
booktitle = Proceedings Eurographics Hardware Workshop,
address = Lausanne, Switzerland,
}
@InProceedings{Shen:1990:NSPb,
author = Li-Sheng Shen and Ed Deprettere and P. Dewilde,
booktitle = Proceedings Eurographics Hardware Workshop,
title = A New Space Partitioning Technique to Support a Highly
Pipelined Architecture for the Radiosity Method,
address = Lausanne, Switzerland,
month = sep,
year = 1990,
note = also available in Advances in Computer Graphics
Hardware V (eds. R. Grimsdale and A. Kaufman),
bibsource = sig-11-1994,
}
@PhdThesis{Shirley:1990:PBLb,
author = Peter Shirley,
title = Physically Based Lighting Calculations for Computer
Graphics,
type = Ph.D. Thesis,
school = Dept. of Computer Science, U. of Illinois,
Urbana-Champaign,
month = nov,
year = 1990,
note = good overview of illumination algorithms to date;
available on the net,
keywords = Monte Carlo, stochastic sampling, radiosity,
bibsource = sig-11-1994,
}
@InProceedings{Shirley:1990:RTM,
author = Peter Shirley,
title = A Ray Tracing Method for Illumination Calculation in
Diffuse-Specular Scenes,
pages = 205--212,
booktitle = Proceedings of Graphics Interface '90,
year = 1990,
month = may,
conference = held in Halifax, Nova Scotia; 14-18 May 1990,
keywords = bump mapping, illumination, radiosity, radiance, ray
tracing, realism, stratified sampling, texture
mapping,
}
@InProceedings{Spencer:1990:HRM,
author = Stephen Spencer,
title = The hemisphere radiosity method: a tale of two
algorithms,
pages = 127--135,
booktitle = Eurographics Workshop on Photosimulation, Realism and
Physics in Computer Graphics,
year = 1990,
conference = held in Rennes, France; 11-13 June 1990,
keywords = form-factor calculations,
annote = Give two algorithms for computing form-factors by
projecting a patch either on a hemisphere placed around
another patch or on the base of this hemisphere.,
}
@InProceedings{Vilaplana:1990:ECC,
author = Josep Vilaplana and Xavier Pueyo,
title = Exploiting Coherence for Clipping and View
Transformations in Radiosity Algorithms,
year = 1990,
month = jun,
booktitle = Proceedings Eurographics Workshop on Photosimulation,
Realism and Physics in Computer Graphics,
pages = 137--50,
address = Rennes, France,
keywords = hemicube,
}
@InCollection{Wallace:1990:RRT,
author = John R. Wallace,
title = Radiosity and Ray Tracing: a Comparison of Shading
Strategies,
year = 1990,
month = aug,
booktitle = SIGGRAPH '90 Advanced Topics in Ray Tracing course
notes,
publisher = ,
keywords = radiosity,
}
@InProceedings{Wallace:1990:TRI,
author = John R. Wallace,
title = Trends in Radiosity for Image Synthesis,
year = 1990,
month = jun,
booktitle = Proceedings Eurographics Workshop on Photosimulation,
Realism and Physics in Computer Graphics,
pages = 1--14,
address = Rennes, France,
}
@TechReport{Wang:1990:ISU,
author = Yigong Wang,
title = Image Synthesis Using Radiosity Methods,
year = 1990,
number = hesis,
type = Doctoral,
institution = Univ. of Alberta,
}
@InProceedings{Wang:1990:OPR,
author = Yigong Wang and Wayne A. Davis,
title = Octant Priority for Radiosity Image Rendering,
pages = 83--91,
booktitle = Proceedings of Graphics Interface '90,
year = 1990,
month = may,
conference = held in Halifax, Nova Scotia; 14-18 May 1990,
keywords = radiosity, illumination models, octrees, image
synthesis, hemi-cube, space subdivision,
annote = ,
}
@Article{Xu:1990:ARM,
author = Hau Xu and Qun-Sheng Peng and You-Dong Liang,
title = Accelerated radiosity method for complex
environments,
pages = 65--71,
journal = Computers and Graphics,
volume = 14,
number = 1,
year = 1990,
keywords = form-factors,
annote = Eurographics '89 Award Paper.,
}
@InProceedings{Anderson:1991:VRB,
author = A. Anderson and M. Grant,
title = Visilux: a radiosity based lighting design tool,
pages = ,
booktitle = Eurographics Workshop on Rendering,
year = 1991,
conference = held in Barcelona, Spain; 13-15 May 1991,
keywords = illumination,
annote = Describes the Visilux lighting simulation system
designed for Philips.,
}
@InProceedings{Arnaldi:1991:DEV,
author = Bruno Arnaldi and Xavier Pueyo and Josep Vilaplana,
title = On the division of environments by virtual walls for
radiosity computation,
pages = ,
booktitle = Eurographics Workshop on Rendering,
year = 1991,
conference = held in Barcelona, Spain; 13-15 May 1991,
keywords = ,
annote = Divide the scene in local environments by putting
virtual walls in the scene. The form-factors within a
local environment are calculated (can be done in
parallel). Then one global system of equations is made
from all the local environment subsystems. This system
is solved to get the radiosities.,
}
@InProceedings{Baum:1991:MRU,
author = Daniel R. Baum and Stephen Mann and Kevin P. Smith and
James M. Winget,
title = Making Radiosity Usable: Automatic Preprocessing and
Meshing Techniques for the Generation of Accurate
Radiosity Solutions,
year = 1991,
month = jul,
volume = 25,
booktitle = Computer Graphics (SIGGRAPH '91 Proceedings),
pages = 51--60,
editor = Thomas W. Sederberg,
}
@InProceedings{Borel:1991:SPO,
author = Christoph C. Borel and Siegfried A. W. Gerstl,
booktitle = Proceedings SPIE on Characterization, Propagation, and
Simulation of Sources and Backgrounds,
title = Simulation of Partially Obscured Scenes Using the
Radiosity Method,
volume = 1486,
pages = 271--277,
month = apr,
year = 1991,
note = reprinted in ACM SIGGRAPH '93 Course Notes - Making
Radiosity Practical, Chapter 8, 4-9.,
keywords = volume radiosity, atmospherics, radiative transfer,
bibsource = sig-11-1994,
}
@InProceedings{Chalmers:1991:PPP,
author = Alan Chalmers and Derek Paddon,
title = Parallel processing of progressive refinement
radiosity methods,
pages = ,
booktitle = Eurographics Workshop on Rendering,
year = 1991,
conference = held in Barcelona, Spain; 13-15 May 1991,
keywords = transputer,
annote = Describes parallel processing radiosity shoot methods
on a transputer network. Comparisons are made between
different processor topologies (ring, hypercube, torus,
AMP). The AMP (a minimum path) configuration shows the
best results.,
}
@InCollection{Chen:1991:IPR,
author = Shenchang Eric Chen,
editor = James Arvo,
booktitle = Graphics Gems II,
title = Implementing Progressive Radiosity with User-Provided
Polygon Display Routines,
publisher = Academic Press,
address = San Diego,
pages = 295--298,
year = 1991,
note = includes code,
bibsource = sig-11-1994,
}
@InProceedings{Chen:1991:RFS,
author = Hong Chen and En-Hua Wu,
title = Radiosity for Furry Surfaces,
pages = 447--457,
booktitle = Eurographics '91,
year = 1991,
month = sep,
editor = Werner Purgathofer,
publisher = North-Holland,
conference = European Computer Graphics Conference and Exhibition;
held in Vienna, Austria; 2-6 September 1991,
keywords = ,
annote = ,
}
@InCollection{Cohen:1991:R,
author = Michael F. Cohen,
editor = David E. Rogers and Ray A. Earnshaw,
booktitle = State of the Art in Computer Graphics: Visualization
and Modeling,
title = Radiosity,
publisher = Springer-Verlag,
address = New York,
pages = 59--90,
year = 1991,
bibsource = sig-11-1994,
}
@InProceedings{Feda:1991:PRR,
author = Martin Feda and Werner Purgathofer,
title = Progressive refinement radiosity on a transputer
network,
pages = ,
booktitle = Eurographics Workshop on Rendering,
year = 1991,
conference = held in Barcelona, Spain; 13-15 May 1991,
keywords = parallel processing,
annote = Describes progressive refinement radiosity method
implemented on transputers. The transputers are
separated in two networks connected by a master
transputer. The worker network performs the radiosity
calculations, and the renderer network continuously
generates images.,
}
@InProceedings{Gatenby:1991:RCG,
author = N. Gatenby and W. T. Hewitt,
title = Radiosity in computer graphics: a proposed alternative
to the hemi-cube algorithm,
pages = ,
booktitle = Eurographics Workshop on Rendering,
year = 1991,
conference = held in Barcelona, Spain; 13-15 May 1991,
keywords = ,
annote = A hemisphere discretization method. The hemisphere is
split in triangular regions with nearly equal areas.,
}
@Article{Greenberg:1991:RTS,
author = Donald P. Greenberg,
title = A ray tracing simulation of a radiosity simulation,
journal = IEEE Computer Graphics and Applications,
pages = 6--7,
volume = 11,
number = 1,
month = jan,
year = 1991,
keywords = ,
annote = About the cover.,
}
@InCollection{Greenberg:1991:SRC,
author = Donald P. Greenberg and Michael Cohen and Holly
Rushmeier and Francois Sillion and John Wallace,
title = SIGGRAPH '91 Radiosity course notes,
month = jul,
year = 1991,
bibsource = sig-11-1994,
}
@InProceedings{Guitton:1991:TPA,
author = P. Guitton and J. Roman and C. Schlick,
title = Two parallel approaches for a progressive radiosity,
pages = ,
booktitle = Eurographics Workshop on Rendering,
year = 1991,
conference = held in Barcelona, Spain; 13-15 May 1991,
keywords = ray tracing, parallel processing, transputer,
annote = Describes ray tracing based progressive radiosity
implemented on a transputer network.,
}
@TechReport{Haines:1991:RB,
author = Eric A. Haines,
editor = D. P. Greenberg and F. Sillion,
title = Radiosity Bibliography,
type = Global Illumination Algorithms, Eurographics Technical
report EG 91 TN,
number = 7,
institution = Eurographics Association,
address = Aire-la-Ville, Switzerland,
year = 1991,
bibsource = sig-11-1994,
}
@InCollection{Haines:1991:RCS,
author = Eric A. Haines,
booktitle = SIGGRAPH '91 Frontiers in Rendering course notes,
title = Ronchamp: A Case Study for Radiosity,
month = jul,
year = 1991,
note = on usability problems; available on the net,
bibsource = sig-11-1994,
}
@InProceedings{Haines:1991:SCE,
author = Eric Haines and John Wallace,
title = Shaft culling for efficient ray-traced radiosity,
pages = ,
booktitle = Eurographics Workshop on Rendering,
year = 1991,
conference = held in Barcelona, Spain; 13-15 May 1991,
keywords = radiosity, ray tracing, bounding volumes,
annote = A shaft is a volume between an emitter and receiver. A
list of enclosing boxes, c.q. patches that are in that
volume is generated. The ray casting to determine
visibility between emitter and receiver can be reduced
by only testing the rays against the patches in the
shaft. Methods to make the shafts, and to determine
which object are in the shaft are given.,
}
@InProceedings{Hanrahan:1991:RHR,
author = Pat Hanrahan and David Salzman and Larry Aupperle,
title = A Rapid Hierarchical Radiosity Algorithm,
year = 1991,
month = jul,
volume = 25,
booktitle = Computer Graphics (SIGGRAPH '91 Proceedings),
pages = 197--206,
editor = Thomas W. Sederberg,
}
@TechReport{Heckbert:1991:FEM,
author = Paul S. Heckbert and James M. Winget,
title = Finite element methods for global illumination,
pages = 19,
month = jul,
year = 1991,
type = Technical Report,
number = UCB/CSD 91/643,
institution = Computer Science Division (EECS), University of
California,
keywords = radiosity, flatland,
annote = Radiosity in flatland.,
}
@InProceedings{Jessel:1991:ERU,
author = J. P. Jessel and M. Paulin and R. Caubet,
title = An extended radiosity using parallel ray-traced
specular transfers,
pages = ,
booktitle = Eurographics Workshop on Rendering,
year = 1991,
conference = held in Barcelona, Spain; 13-15 May 1991,
keywords = ray tracing, parallel processing, transputer,
annote = Describes a parallel extended radiosity method. The
method is implemented on a parallel architecture
dedicated to ray-tracing (based on transputers).,
}
@InProceedings{Liere:1991:DCR,
author = Robert van Liere,
title = Divide and conquer radiosity,
pages = ,
booktitle = Eurographics Workshop on Rendering,
year = 1991,
conference = held in Barcelona, Spain; 13-15 May 1991,
keywords = ,
annote = Describes an algorithm that separates the scene in
different subscenes by placing virtual walls. Each of
the subscenes is solved with a progressive refinement
method (on separate processors if necessary). After all
scenes are solved, energy is transfered from one
subscene to another. Then the radiosities are again
solved independently for the subscenes.,
}
@TechReport{Lischinski:1991:ISR,
author = Daniel Lischinski and Filippo Tampieri and Donald P.
Greenberg,
title = Improving Sampling and Reconstruction Techniques for
Radiosity,
year = 1991,
number = 2,
type = Technical report,
institution = Department of Computer Science, Cornell University,
keywords = shadow, mesh generation,
}
@InProceedings{Nagasawa:1991:SPR,
author = Mikio Nagasawa and Kunio Kuwahara,
title = Smoothed particle rendering for fluid visualization in
astrophysics,
pages = 589--605,
booktitle = Scientific Visualization of Physical Phenomena
(Proceedings of CG International '91),
year = 1991,
editor = N. M. Patrikalakis,
publisher = Springer-Verlag,
conference = held in Cambridge, Massachusetts; 26-28 June 1991,
keywords = animation, radiosity, smoothed particle method, volume
rendering,
annote = ,
}
@InProceedings{Naka:1991:NCC,
author = Toshiya Naka and Kenji Nishimura and Fumihiko Taguchi
and Yoshimori Nakase,
title = A new color conversion method for realistic light
simulation,
pages = 345--359,
booktitle = Scientific Visualization of Physical Phenomena
(Proceedings of CG International '91),
year = 1991,
editor = N. M. Patrikalakis,
publisher = Springer-Verlag,
conference = held in Cambridge, Massachusetts; 26-28 June 1991,
keywords = photorealism, radiosity, color conversion, uniform
color space, illumination,
annote = ,
}
@InCollection{Shirley:1991:RRT,
author = Peter Shirley,
editor = James Arvo,
booktitle = Graphics Gems II,
title = Radiosity via Ray Tracing,
publisher = Academic Press,
address = San Diego,
pages = 306--310,
year = 1991,
keywords = ray tracing,
bibsource = sig-11-1994,
}
@InProceedings{Shirley:1991:RTF,
author = Peter Shirley and Kelvin Sung and William Brown,
title = A Ray Tracing Framework for Global Illumination
Systems,
pages = 117--128,
booktitle = Proceedings of Graphics Interface '91,
year = 1991,
month = jun,
conference = held in Calgary, Alberta; 3-7 June 1991,
keywords = ray tracing, radiosity, object-oriented design,
software components, zonal method, visual realism,
annote = ,
}
@InProceedings{Shirley:1991:TCM,
author = P. Shirley,
title = Time Complexity of Monte Carlo Radiosity,
pages = 459--465,
booktitle = Eurographics '91,
year = 1991,
month = sep,
editor = Werner Purgathofer,
publisher = North-Holland,
conference = European Computer Graphics Conference and Exhibition;
held in Vienna, Austria; 2-6 September 1991,
keywords = ,
annote = ,
}
@InCollection{Sillion:1991:DSB,
author = Francois Sillion,
editor = James Arvo,
booktitle = Graphics Gems II,
title = Detection of Shadow Boundaries for Adaptive Meshing in
Radiosity,
publisher = Academic Press,
address = San Diego,
pages = 311--315,
year = 1991,
bibsource = sig-11-1994,
}
@TechReport{Smith:1991:FAR,
author = Kevin P. Smith,
title = Fast and Accurate Radiosity-Based Rendering,
year = 1991,
number = 5,
type = UCB/CSD 91,
institution = Computer Science Division, University of California,
Berkeley,
}
@InProceedings{Tampieri:1991:CRA,
author = Filippo Tampieri and Dani Lischinski,
title = The constant radiosity assumption syndrome,
pages = ,
booktitle = Eurographics Workshop on Rendering,
year = 1991,
conference = held in Barcelona, Spain; 13-15 May 1991,
keywords = ,
annote = In progressive refinement the radiosity of the
shooting patch is assumed to be constant. This is not
correct. It is better to take into account the
variation of the radiosity of the source. A progressive
refinement method is given that takes into account the
non uniform radiosity distribution of the shooting
patch.,
}
@InCollection{Tampieri:1991:FVR,
author = Filippo Tampieri,
editor = James Arvo,
booktitle = Graphics Gems II,
title = Fast Vertex Radiosity Update,
publisher = Academic Press,
address = San Diego,
pages = 303--305,
year = 1991,
note = includes code,
bibsource = sig-11-1994,
}
@MastersThesis{Varshney:1991:PRT,
author = Amitabh Varshney,
title = Parallel Radiosity Techniques for Mesh-Connected
SIMD Computers,
month = jul,
year = 1991,
type = M.Sc. Thesis,
school = Department of Computer Science, University of North
Carolina at Chapel Hill,
keywords = parallelism,
annote = Also Technical Report TR91-028,
}
@InProceedings{Vedel:1991:TAS,
author = Christophe Vedel and Claude Puech,
title = A testbed for adaptive subdivision in progressive
radiosity,
pages = ,
booktitle = Eurographics Workshop on Rendering,
year = 1991,
conference = held in Barcelona, Spain; 13-15 May 1991,
keywords = ,
annote = Describes problems related to adaptive mesh
subdivision for progressive radiosity. Experiments with
different subdivision criteria such as linear or
quadratic gradients were reported. For the storage for
the radiosities a binary tree structure is used.,
}
@MastersThesis{Wanuga:1991:ARM,
author = Paul H. Wanuga,
title = Accelerated Radiosity Methods for Rendering Complex
Environments,
year = 1991,
month = aug,
school = Program of Computer Graphics, Cornell Univ.,
}
@Article{Asensio:1992:HRC,
author = Frederic Asensio,
title = A Hierarchical Ray-Casting Algorithm for Radiosity
Shadows,
year = 1992,
month = may,
journal = Third Eurographics Workshop on Rendering,
pages = 179--188,
address = Bristol, UK,
keywords = radiosity,
}
@Article{Ashdown:1992:RR,
author = Ian Ashdown,
title = Radiosity and Realism,
journal = The C Users Journal,
volume = 10,
number = 8,
pages = 33--42,
month = aug,
year = 1992,
note = includes code,
bibsource = sig-11-1994,
}
@InProceedings{Borel:1992:ACU,
author = Christoph C. Borel and Siegfried A. W. Gerstl,
booktitle = Proceedings of IGARSS '92,
title = Atmospheric Corrections Using the Volume Radiosity
Model,
pages = 1231--1234,
year = 1992,
keywords = atmospherics, volume radiosity,
bibsource = sig-11-1994,
}
@InProceedings{Borel:1992:RSA,
author = Christoph C. Borel and Siegfried A. W. Gerstl,
booktitle = Proceedings of the International Geoscience and Remote
Sensing Symposium '92,
title = Remote Sensing Applications of the Extended Radiosity
Method,
year = 1992,
bibsource = sig-11-1994,
}
@Article{Drucker:1992:FRU,
author = Steven M. Drucker and Peter Schroeder,
title = Fast Radiosity Using a Data Parallel Architecture,
year = 1992,
month = may,
journal = Third Eurographics Workshop on Rendering,
pages = 247--258,
address = Bristol, UK,
keywords = parallelism, radiosity,
}
@Article{Feda:1992:ARO,
author = Martin Feda and Werner Purgathofer,
title = Accelerating Radiosity by Overshooting,
year = 1992,
month = may,
journal = Third Eurographics Workshop on Rendering,
pages = 21--32,
address = Bristol, UK,
keywords = progressive refinement,
}
@InProceedings{Gerstl:1992:RSA,
author = S. A. W. Gerstl and C. C. Borel,
booktitle = Proceedings of IGARSS '92,
title = Remote Sensing Applications of the Extended Radiosity
Method,
pages = 503--504,
year = 1992,
bibsource = sig-11-1994,
}
@InProceedings{Hanrahan:1992:RHR,
author = Pat Hanrahan and David Salzman,
editor = K. Bouatouch and C. Bouville,
booktitle = Photorealism in Computer Graphics (Proceedings
Eurographics Workshop on Photosimulation, Realism and
Physics in Computer Graphics, 1990),
title = A Rapid Hierarchical Radiosity Algorithm for
Unoccluded Environments,
pages = 151--71,
year = 1992,
keywords = hierarchical N-body,
bibsource = sig-11-1994,
}
@Article{Heckbert:1992:DMR,
author = Paul Heckbert,
title = Discontinuity Meshing for Radiosity,
year = 1992,
month = may,
journal = Third Eurographics Workshop on Rendering,
pages = 203--226,
address = Bristol, UK,
}
@Article{Heckbert:1992:RF,
author = Paul Heckbert,
title = Radiosity in Flatland,
journal = Computer Graphics Forum (Eurographics '92),
volume = 11,
number = 3,
address = Cambridge, UK,
pages = 181--192,
month = sep,
year = 1992,
keywords = adaptive mesh, integral equation,
bibsource = sig-11-1994,
}
@InProceedings{Kok:1992:TPR,
author = Arjan J. F. Kok and Celal Yilmaz and Laurens H. J.
Bierens,
editor = K. Bouatouch and C. Bouville,
booktitle = Photorealism in Computer Graphics (Proceedings
Eurographics Workshop on Photosimulation, Realism and
Physics in Computer Graphics, 1990),
title = A Two-Pass Radiosity Method for Bezier Patches,
pages = 117--26,
year = 1992,
bibsource = sig-11-1994,
}
@MastersThesis{Kwok:1992:ART,
author = Bernard Kwok,
title = Analysis of Radiosity Techniques in Computer
Graphics,
type = Master's Thesis,
school = Dept. of Computer Science, York University, Toronoto,
Canada,
month = may,
year = 1992,
bibsource = sig-11-1994,
}
@Article{Languenou:1992:ADM,
author = Eric Languenou and Kadi Bouatouch and Pierre Tellier,
title = An Adaptive Discretization Method for Radiosity,
journal = Computer Graphics Forum (Eurographics '92),
volume = 11,
number = 3,
address = Cambridge, UK,
pages = 205--216,
month = sep,
year = 1992,
bibsource = sig-11-1994,
}
@InProceedings{Lewis:1992:SCR,
author = Robert R. Lewis,
title = Solving the Classic Radiosity Equation Using Multigrid
Techniques,
year = 1992,
month = apr,
booktitle = Proceedings of the 1992 Western Computer Graphics
Symposium,
pages = 157--164,
address = Banff, Alberta, Canada,
}
@Article{Lischinski:1992:DMA,
author = Daniel Lischinski and Filippo Tampieri and Donald P.
Greenberg,
title = Discontinuity Meshing for Accurate Radiosity,
journal = IEEE Computer Graphics and Applications,
volume = 12,
number = 6,
pages = 25--39,
month = nov,
year = 1992,
keywords = shadow, mesh generation,
bibsource = sig-11-1994,
}
@InCollection{Max:1992:LRA,
author = Nelson L. Max and Michael J. Allison,
title = Linear Radiosity Approximation Using Vertex-to-Vertex
Form Factors,
year = 1992,
booktitle = Graphics Gems III,
publisher = Academic Press,
pages = 318--323,
address = San Diego,
keywords = hardware, hemicube,
}
@InProceedings{Neumann:1992:ERM,
author = Laszlo Neumann and Attila Neumann,
editor = K. Bouatouch and C. Bouville,
booktitle = Photorealism in Computer Graphics (Proceedings
Eurographics Workshop on Photosimulation, Realism and
Physics in Computer Graphics, 1990),
title = Efficient Radiosity Methods for Non-Separable
Reflectance Models,
pages = 83--102,
year = 1992,
bibsource = sig-11-1994,
}
@InProceedings{Purgathofer:1992:FRP,
author = Werner Purgathofer and Michael Zeiller,
editor = K. Bouatouch and C. Bouville,
booktitle = Photorealism in Computer Graphics (Proceedings
Eurographics Workshop on Photosimulation, Realism and
Physics in Computer Graphics, 1990),
title = Fast Radiosity by Parallelization,
pages = 173--83,
year = 1992,
keywords = parallelism,
bibsource = sig-11-1994,
}
@MastersThesis{Reichert:1992:TPR,
author = Mark C. Reichert,
title = A Two-Pass Radiosity Method Driven by Lights and
Viewer Position,
type = Master's Thesis,
school = Program of Computer Graphics, Cornell University,
month = jan,
year = 1992,
bibsource = sig-11-1994,
}
@InProceedings{Saec:1992:PRT,
author = Betrand Le Saec and Christophe Schlick,
editor = K. Bouatouch and C. Bouville,
booktitle = Photorealism in Computer Graphics (Proceedings
Eurographics Workshop on Photosimulation, Realism and
Physics in Computer Graphics, 1990),
title = A Progressive Ray-Tracing-based Radiosity with General
Reflectance Functions,
pages = 103--116,
year = 1992,
bibsource = sig-11-1994,
}
@Article{Shirley:1992:TCM,
author = Peter Shirley,
title = Time complexity of Monte Carlo radiosity,
journal = Comput. \& Graphics,
volume = 16,
number = 1,
year = 1992,
pages = 117--120,
note = Eurographics '91 award paper,
}
@InProceedings{Slusallek:1992:SPP,
author = Philipp Slusallek and Max Kramer and Ralf Sonntag,
booktitle = Third Eurographics Workshop on Rendering,
title = A Short Proof of the Progressive Refinement Method in
Radiosity,
address = Bristol, UK,
pages = 287,
month = may,
year = 1992,
note = abstract,
bibsource = sig-11-1994,
}
@InProceedings{Smits:1992:IDR,
author = Brian E. Smits and James R. Arvo and David H.
Salesin,
title = An Importance-Driven Radiosity Algorithm,
year = 1992,
month = jul,
volume = 26,
booktitle = Computer Graphics (SIGGRAPH '92 Proceedings),
pages = 273--282,
editor = Edwin E. Catmull,
}
@InProceedings{Spencer:1992:HRM,
author = Stephen N. Spencer,
editor = K. Bouatouch and C. Bouville,
booktitle = Photorealism in Computer Graphics (Proceedings
Eurographics Workshop on Photosimulation, Realism and
Physics in Computer Graphics, 1990),
title = The Hemisphere Radiosity Method: A Tale of Two
Algorithms,
pages = 127--135,
year = 1992,
bibsource = sig-11-1994,
}
@Article{Sturzlinger:1992:RVD,
author = W. Sturzlinger,
title = Radiosity with Voronoi Diagrams,
year = 1992,
month = may,
journal = Third Eurographics Workshop on Rendering,
pages = 169--177,
address = Bristol, UK,
}
@Article{Varshney:1992:EPA,
author = Amitabh Varshney and Jan F. Prins,
title = An Environment-Projection Approach to Radiosity for
Mesh-Connected Computers,
year = 1992,
month = may,
journal = Third Eurographics Workshop on Rendering,
pages = 271--281,
address = Bristol, UK,
keywords = parallelism,
}
@InProceedings{Vilaplana:1992:ECC,
author = Josep Vilaplana and Xavier Pueyo,
editor = K. Bouatouch and C. Bouville,
booktitle = Photorealism in Computer Graphics (Proceedings
Eurographics Workshop on Photosimulation, Realism and
Physics in Computer Graphics, 1990),
title = Exploiting Coherence for Clipping and View
Transformations in Radiosity Algorithms,
pages = 137--50,
year = 1992,
keywords = hemicube,
bibsource = sig-11-1994,
}
@Article{Vilaplana:1992:PRS,
author = Josep Vilaplana,
title = Parallel Radiosity Solutions Based on Partial Result
Messages,
year = 1992,
month = may,
journal = Third Eurographics Workshop on Rendering,
pages = 259--270,
address = Bristol, UK,
keywords = parallelism,
}
@InProceedings{Wallace:1992:TRI,
author = John R. Wallace,
editor = K. Bouatouch and C. Bouville,
booktitle = Photorealism in Computer Graphics (Proceedings
Eurographics Workshop on Photosimulation, Realism and
Physics in Computer Graphics, 1990),
title = Trends in Radiosity for Image Synthesis,
pages = 1--14,
year = 1992,
bibsource = sig-11-1994,
}
@Article{Wang:1992:NPR,
author = Mingfu Wang and Hujun Bao and Qunsheng Peng,
title = A new progressive radiosity algorithm through the use
of accurate form-factors,
journal = Comput. \& Graphics,
volume = 16,
number = 3,
year = 1992,
pages = 303--310,
}
@Article{Zhou:1992:SPB,
author = Y. Zhou and Q. Peng,
title = The Super-Plane Buffer: An Efficient Form-Factor
Evaluation Algorithm for Progressive Radiosity,
journal = Computers and Graphics,
volume = 16,
number = 2,
pages = 151--158,
year = 1992,
bibsource = sig-11-1994,
}
@InProceedings{Aguas:1993:MRR,
author = Miguel P. N. Aguas and Stefan Muller,
title = Mesh Redistribution in Radiosity,
booktitle = Fourth Eurographics Workshop on Rendering,
year = 1993,
editor = Michael F. Cohen and Claude Puech and Francois
Sillion,
pages = 327--336,
organization = Eurographics,
month = jun,
note = held in Paris, France, 14--16 June 1993,
}
@InProceedings{Aupperle:1993:HIA,
author = L. Aupperle and Pat Hanrahan,
booktitle = Computer Graphics Proceedings, Annual Conference
Series, 1993,
title = A Hierarchical Illumination Algorithm for Surfaces
with Glossy Reflection,
pages = 155--162,
year = 1993,
keywords = adaptive meshing, global illumination, radiosity, ray
tracing,
abstract = We develop a radiance formulation for discrete three
point transport, and a new measure and description of
reflectance:area reflectance. This formulation and
associated reflectance allow an estimate of error in
the computation of radiance across triples of surface
elements, and lead directly to a hierarchical
refinement algorithm for global illumination. We have
implemented and analyzed this algorithm over surfaces
exhibiting glossy specular and diffuse reflection.
Theoretical growth in light transport computation is
shown to be O ( n + k 3 ) for sufficient refinement,
where n is the number of elements at the finest level
of subdivision over an environment consisting of k
input polygonal patches Ñ this growth is exhibited in
experimental trials. Naive application of three point
transport would require computation over O ( n 3 )
element-triple interactions.,
keywords = adaptive meshing, global illumination, radiosity, ray
tracing,
}
@InProceedings{Bao:1993:PRA,
author = Hujun Bao and Qunsheng Peng,
title = A Progressive Radiosity Algorithm for Scenes
Containing Curved Surfaces,
booktitle = Eurographics '93,
year = 1993,
editor = R. J. Hubbold and R. Juan,
pages = 399--408,
organization = Eurographics,
publisher = Blackwell Publishers,
address = Oxford, UK,
}
@InProceedings{Bhate:1993:ARH,
author = N. Bhate,
booktitle = Proceedings of ATARV-93: Advanced Techniques in
Animation, Rendering, and Visualization,
title = Application of Rapid Hierarchical Radiosity to
Participating Media,
publisher = Bilkent University,
address = Ankara, Turkey,
pages = 43--53,
month = jul,
year = 1993,
keywords = atmospherics, hierarchical radiosity, participating
media,
bibsource = sig-11-1994,
}
@Article{Borel:1993:RMR,
author = Christoph C. Borel and Siegfried A. W. Gerstl,
title = Radiosity Modeling for Remote Sensing Applications,
journal = ACM SIGGRAPH '93 Course Notes - Making Radiosity
Practical,
pages = Chapter 8, 1--15,
year = 1993,
bibsource = sig-11-1994,
}
@InProceedings{Bresciani:1993:CMS,
author = F. Bresciani and G. Rossi,
booktitle = Proceedings of Lux Europa 1993,
title = A Computational Method to Simulate Light Propagation
in Fog: Theory, Experimental Verification and
Applicability to Road Lighting Systems Analysis,
volume = 2,
address = Edinburgh, Scotland,
year = 1993,
keywords = radiosity validation, zonal method, volume radiosity,
bibsource = sig-11-1994,
}
@InProceedings{Capin:1993:PRR,
author = Tolga K. \cCapin and Cevdet Aykanat and B\ulent
\Ozg\u\cc,
title = Progressive Refinement Radiosity on Ring-Connected
Multicomputers,
booktitle = ACM SIGGRAPH Symposium on Parallel Rendering,
year = 1993,
editor = Thomas Crockett and Charles Hansen and Scott Whitman,
pages = ,
organization = ACM,
month = nov,
}
@TechReport{Carter:1993:IHR,
author = Michael B. Carter and John L. Gustafson,
title = An Improved Hierarchical Radiosity Method,
year = 1993,
month = jan,
number = 4881,
type = Tech. Report IS-J,
institution = Ames Laboratory,
}
@TechReport{Carter:1993:SRF,
author = Michael B. Carter and John L. Gustafson,
title = The Symmetric Radiosity Formulation,
year = 1993,
month = jan,
number = 4880,
type = Tech. Report IS-J,
institution = Ames Laboratory,
}
@Article{Christou:1993:DRB,
author = C. G. Christou and B. G. Cumming and A. J. Parker and
A. P. Zisserman,
title = Development of a Radiosity Based Image Synthesis
System to Investigate Vision,
journal = ACM SIGGRAPH '93 Course Notes - Making Radiosity
Practical,
pages = Chapter 14, 1--16,
year = 1993,
bibsource = sig-11-1994,
}
@Book{Cohen:1993:RRI,
author = Michael F. Cohen and John R. Wallace,
title = Radiosity and Realistic Image Synthesis,
publisher = Academic Press Professional,
address = San Diego, CA,
year = 1993,
note = Excellent book on radiosity algorithms,
bibsource = sig-11-1994,
}
@Article{DiLaura:1993:SSL,
author = David L. DiLaura and Peter J. Franck,
title = On Setting Up and Solving Large Radiative Transfer
Systems,
journal = Journal of the Illuminating Engineering Society,
volume = 22,
number = 2,
pages = 3--7,
month = Summer,
year = 1993,
keywords = eigenvectors, radiosity equation,
bibsource = sig-11-1994,
}
@InProceedings{Feda:1993:PRR,
author = Martin Feda and Werner Purgathofer,
title = Progressive Ray Refinement for Monte Carlo Radiosity,
booktitle = Fourth Eurographics Workshop on Rendering,
year = 1993,
editor = Michael F. Cohen and Claude Puech and Francois
Sillion,
pages = 15--26,
organization = Eurographics,
month = jun,
note = held in Paris, France, 14--16 June 1993,
}
@Article{Gerstl:1993:PRM,
author = S. A. W. Gerstl and C. C. Borel,
title = Principles of the Radiosity Method versus Radiative
Transfer for Canopy Reflectance Modeling,
journal = ACM SIGGRAPH '93 Course Notes - Making Radiosity
Practical,
pages = Chapter 8, 11--15,
year = 1993,
bibsource = sig-11-1994,
}
@TechReport{Gortler:1993:RRM,
author = Steven J. Gortler and Michael F. Cohen and Phillip
Slusallek,
title = Radiosity and Relaxation Methods: Progressive
Refinement is Southwell Relaxation,
type = Technical Report,
number = CS-TR-408-93,
institution = Department of Computer Science, Princeton University,
month = feb,
year = 1993,
note = to appear in IEEE Computer Graphics \& Applications,
keywords = radiosity equation, progressive radiosity, Southwell
iteration, Jacobi iteration, relaxation methods,
bibsource = sig-11-1994,
}
@InProceedings{Gortler:1993:SRL,
author = Steven J. Gortler and Michael F. Cohen,
editor = N. M. Thalmann and D. Thalmann,
booktitle = Communicating with Virtual Worlds: Proceedings of
Computer Graphics International '93 (CGI '93),
title = Solving the Radiosity Linear System,
publisher = Springer-Verlag,
address = Tokyo, Japan,
pages = 78--88,
year = 1993,
bibsource = sig-11-1994,
}
@InProceedings{Gortler:1993:WR,
author = Steven J. Gortler and Peter Schroder and Michael F.
Cohen and Pat Hanrahan,
booktitle = Computer Graphics Proceedings, Annual Conference
Series, 1993,
title = Wavelet Radiosity,
pages = 221--230,
year = 1993,
keywords = wavelets, hierarchical radiosity, global
illumination,
bibsource = sig-11-1994,
abstract = Radiosity methods have been shown to be an effective
means to solve the global illumination problem in
Lambertian diffuse environments. These methods
approximate the radiosity integral equation by
projecting the unknown radiosity function into a set of
basis functions with limited support resulting in a set
of n linear equations where n is the number of discrete
elements in the scene. Classical radiosity methods
required the evaluation of n^2 interaction
coefficients. Efforts to reduce the number of required
coefficients without compromising error bounds have
focused on raising the order of the basis functions,
meshing, accounting for discontinuities, and on
developing hierarchical approaches, which have been
shown to reduce the required interactions to O(n). In
this paper we show that the hierarchical radiosity
formulation is an instance of a more general set of
methods based on wavelet theory. This general framework
offers a unified view of both higher order element
approaches to radiosity and the hierarchical radiosity
methods. After a discussion of the relevant theory, we
discuss a new set of linear time hierarchical
algorithms based on wavelets such as the multiwavelet
family and a atlet basis which we introduce. Initial
results of experimentation with these basis sets are
demonstrated and discussed.,
keywords = radiosity, Fredholm equations, global illumination,
wavelets, hierarchical radiosity,
}
@InProceedings{Greiner:1993:BRN,
author = Gunther Greiner and Wolfgang Heidrich and Philipp
Slusallek,
title = Blockwise Refinement --- A New Method for Solving
the Radiosity Problem,
booktitle = Fourth Eurographics Workshop on Rendering,
year = 1993,
editor = Michael F. Cohen and Claude Puech and Francois
Sillion,
pages = 233--246,
organization = Eurographics,
month = jun,
note = held in Paris, France, 14--16 June 1993,
}
@Article{Hall:1993:IER,
author = David E. Hall and Holly E. Rushmeier,
title = Improved explicit radiosity method for calculating
non- Lambertian reflections,
pages = 278--288,
journal = The Visual Computer,
volume = 9,
number = 5,
month = mar,
year = 1993,
keywords = global illumination, general reflectance functions,
annote = ,
}
@Article{Hall:1993:IRM,
author = D. E. Hall and Holly E. Rushmeier,
title = Improved Radiosity Method for Calculating
Non-Lambertian Reflections,
journal = The Visual Computer,
volume = 9,
pages = 278--288,
year = 1993,
bibsource = sig-11-1994,
}
@InProceedings{Kok:1993:GPP,
author = Arjan Kok,
title = Grouping of Patches in Progressive Radiosity,
booktitle = Fourth Eurographics Workshop on Rendering,
year = 1993,
editor = Michael F. Cohen and Claude Puech and Francois
Sillion,
pages = 221--232,
organization = Eurographics,
month = jun,
note = held in Paris, France, 14--16 June 1993,
}
@InProceedings{Lalonde:1993:ADM,
author = Paul Lalonde,
title = An adaptive discretization method for progressive
radiosity,
booktitle = Proceedings of Graphics Interface '93,
year = 1993,
pages = 78--86,
organization = Canadian Information Processing Society,
address = Toronto, Ontario, Canada,
month = may,
}
@TechReport{Langer:1993:PRF,
author = Michael Langer and Pierre Breton and Steven Zucker,
title = Parallel Radiosity Without Form Factors,
type = TR-CIM-93-22,
institution = McGill Research Center for Intelligent Machines,
McGill University,
address = Montreal, Quebec,
month = dec,
year = 1993,
keywords = parallel processing, form factors,
bibsource = sig-11-1994,
}
@InProceedings{Lischinski:1993:CHR,
author = Daniel Lischinski and Filippo Tampieri and Donald P.
Greenberg,
booktitle = Computer Graphics Proceedings, Annual Conference
Series, 1993,
title = Combining Hierarchical Radiosity and Discontinuity
Meshing,
pages = 199--208,
year = 1993,
keywords = diffuse reflector, discontinuity meshing, global
illumination, hierarchical radiosity, Mach bands,
photorealism, quadratic interpolation, radiance
function, radiosity, reconstruction, shadows,
view-independence,
abstract = We introduce a new approach for the computation of
view-independent solutions to the diffuse global
illumination problem in polyhedral environments. The
approach combines ideas from hierarchical radiosity and
discontinuity meshing to yield solutions that are
accurate both numerically and visually. First, we
describe a modified hierarchical radiosity algorithm
that uses a discontinuity-driven subdivision strategy
to achieve better numerical accuracy and faster
convergence. Second, we present a new algorithm based
on discontinuity meshing that uses the hierarchical
solution to reconstruct an object-space approximation
to the radiance function that is visually accurate. Our
results show significant improvements over both
hierarchical radiosity and discontinuity meshing
algorithms.,
}
@Article{Ng:1993:MIR,
author = A. Ng and M. Slater,
title = A Multiprocessor Implementation of Radiosity,
journal = Computer Graphics Forum,
volume = 12,
number = 5,
pages = 329--342,
year = 1993,
bibsource = sig-11-1994,
}
@Article{Nishita:1993:NRA,
author = Tomoyuki Nishita and Eihachiro Nakamae,
title = A New Radiosity Apporach Using Area Sampling for
Parametric Patches,
year = 1993,
month = sep,
journal = Computer Graphics Forum (Eurographics '93),
volume = 13,
number = 3,
pages = 385--398,
address = Barcelona, Spain,
keywords = form factor, curved surfaces,
}
@InProceedings{Paddon:1993:MMR,
author = Derek Paddon,
title = Multiprocessor Models for the Radiosity Method,
year = 1993,
month = jul,
booktitle = First Bilkent Computer Graphics Conference, ATARV-93,
address = Ankara, Turkey,
keywords = parallelism,
}
@InProceedings{Philips:1993:AMR,
author = S. Philips and A. Worrall and C. Willis and D.
Paddon,
booktitle = Proceedings of Compugraphics 1993,
title = Adaptive Mesh Refinement for the Radiosity Method,
address = Alvor, Portugal,
pages = 178--186,
month = dec,
year = 1993,
bibsource = sig-11-1994,
}
@InProceedings{Priol:1993:PRU,
author = Thierry Priol and K. Bouatouch and D. Menard,
title = Parallel Radiosity Using a Shared Virtual Memory,
year = 1993,
month = jul,
booktitle = First Bilkent Computer Graphics Conference, ATARV-93,
address = Ankara, Turkey,
keywords = parallelism,
}
@InProceedings{Schoeneman:1993:PL,
author = Chris Schoeneman and Julie Dorsey and Brian Smits and
James Arvo and Donald Greenberg,
booktitle = Computer Graphics Proceedings, Annual Conference
Series, 1993,
title = Painting With Light,
pages = 143--146,
year = 1993,
keywords = simulation, global illumination, radiosity, ray
traving, light design, inverse problems,
abstract = We present a new approach to lighting design for image
synthesis. It is based on the inverse problem of
determining light settings for an environment from a
description of the desired solution. The method is
useful for determining light intensities to achieve a
desired effect in a computer simulation and can be used
in conjunction with any rendering algorithm. Given a
set of lights with fixed positions, we determine the
light intensities and colors that most closely match
the target image painted by the designer using a
constrained least squares approach. We describe an
interactive system that allows exible input and display
of the solution.,
}
@InProceedings{Schroder:1993:FFB,
author = Peter Schr\oder and Pat Hanrahan,
booktitle = Computer Graphics Proceedings, Annual Conference
Series, 1993,
title = On the Form Factor Between Two Polygons,
pages = 163--164,
year = 1993,
keywords = Radiosity, Engineering, Closed form solution, form
factor, polygons,
abstract = Form factors are used in radiosity to describe the
fraction of diffusely re ected light leaving one
surface and arriving at another. They are a fundamental
geometric property used for computation. Many special
configurations admit closed form solutions. However,
the important case of the form factor between two
polygons in three space has had no known closed form
solution. We give such a solution for the case of
general (planar, convex or concave, possibly containing
holes) polygons.,
}
@InProceedings{Schroder:1993:NIR,
author = Peter Schroder,
booktitle = Fourth Eurographics Workshop on Rendering,
title = Numerical Integration for Radiosity in the Presence of
Singularities,
type = Doctoral Thesis,
address = Paris, France,
pages = 177--184,
month = jun,
year = 1993,
bibsource = sig-11-1994,
}
@InProceedings{Schroeder:1993:NIR,
author = Peter Schroeder,
title = Numerical Integration for Radiosity In The Presence Of
Singularities,
booktitle = Fourth Eurographics Workshop on Rendering,
year = 1993,
editor = Michael F. Cohen and Claude Puech and Francois
Sillion,
pages = 177--184,
organization = Eurographics,
month = jun,
note = held in Paris, France, 14--16 June 1993,
}
@InProceedings{Schroeder:1993:WPRa,
author = Peter Schroeder and Steven Gortler and Michael Cohen
and Pat Hanrahan,
title = Wavelet Projections for Radiosity,
booktitle = Fourth Eurographics Workshop on Rendering,
year = 1993,
editor = Michael F. Cohen and Claude Puech and Francois
Sillion,
pages = 105--114,
organization = Eurographics,
month = jun,
note = held in Paris, France, 14--16 June 1993,
}
@InProceedings{Shao:1993:AAP,
author = Min-Zhi Shao and Norman Badler,
title = Analysis and Acceleration of Progressive Refinement
Radiosity Method,
booktitle = Fourth Eurographics Workshop on Rendering,
year = 1993,
editor = Michael F. Cohen and Claude Puech and Francois
Sillion,
pages = 247--258,
organization = Eurographics,
month = jun,
note = held in Paris, France, 14--16 June 1993,
}
@TechReport{Shao:1993:GSP,
author = Min-Zhi Shao and Norman I. Badler,
title = A Gathering and Shooting Progressive Refinement
Radiosity Method,
type = Technical Report,
number = MS-CIS-93-03,
institution = Department of Computer and Information Science,
University of Pennsylvania,
year = 1993,
bibsource = sig-11-1994,
}
@Article{Shi:1993:MRA,
author = Jiaoying Shi and Aidong Zhang and Jose Encarnacao and
Martin Gobel,
title = A Modified Radiosity Algorithm for Integrated Visual
and Auditory Rendering,
journal = Computers and Graphics,
volume = 17,
number = 6,
pages = 633--642,
year = 1993,
keywords = acoustics, auditory rendering, radiosity algorithms,
bibsource = sig-11-1994,
}
@Article{Sillion:1993:RND,
author = Francois Sillion,
title = Radiosity with Non-diffuse Reflectors,
journal = ACM SIGGRAPH '93 Course Notes - Making Radiosity
Practical,
pages = Chapter 5, 1--25,
year = 1993,
keywords = nondiffuse reflectors, BRDF, bidirectional ray
tracing,
bibsource = sig-11-1994,
}
@TechReport{Singh:1993:PHBb,
author = Jaswinder P.l Singh,
title = Parallel Hierarchical N-Body Methods and their
Implications for Multiprocessors,
type = Technical report,
number = CSL-TR-93-563,
institution = Stanford University,
address = Stanford, CA,
month = feb,
year = 1993,
keywords = parallel processors, hierarchical radiosity, N-body,
bibsource = sig-11-1994,
}
@PhdThesis{Tampieri:1993:DMR,
author = Filippo Tampieri,
title = Discontinuity Meshing for Radiosity Image Synthesis,
type = Ph.D. Thesis,
school = Cornell University,
address = Ithaca, NY,
year = 1993,
bibsource = sig-11-1994,
}
@InProceedings{Teller:1993:GVA,
author = Seth Teller and Pat Hanrahan,
booktitle = Computer Graphics Proceedings, Annual Conference
Series, 1993,
title = Global Visibility Algorithms for Illumination
Computations,
pages = 239--246,
year = 1993,
keywords = hidden surface removal, visibility space, radiosity,
global illumination, algorithmic triage,
abstract = The most expensive geometric operation in image
synthesis is visibility determination. Classically this
is solved with hidden surface removal algorithms that
render only the parts of the scene visible from a
point. Global illumination calculations, however, may
require information between any two points in the
scene. This paper describes global visibility
algorithms that preprocess polygon databases in order
to accelerate visibility determination during
illumination calculations. These algorithms are
sensitive to the output complexity in visibility space;
that is, how many pairs of objects are mutually
visible. Furthermore, the algorithms are incremental so
that they work well with progressive refinement and
hierarchical methods of image synthesis. The algorithms
are conservative, but exact; that is, when they return
visibility predicates they can be proved true. However
sometimes they do not return either totally visible or
totally invisible, but partially visible, even though
in the same situation a better algorithm might return
the exact answer. In this paper we describe the
algorithms and their implementation, and show that, in
a scene with low average visual complexity, they can
dramatically accelerate conventional radiosity
programs.,
}
@Article{Tellier:1993:ESC,
author = Pierre Tellier and E. Maisel and Kadi Bouatouch and
Eric Langueonou,
title = Exploiting Spatial Coherence to Accelerate Radiosity,
journal = The Visual Computer,
volume = 10,
pages = 46--53,
year = 1993,
bibsource = sig-11-1994,
}
@InProceedings{Troutman:1993:RAUb,
author = Roy Troutman and Nelson L. Max,
booktitle = Computer Graphics Proceedings, Annual Conference
Series, 1993,
title = Radiosity Algorithms Using Higher Order Finite Element
Methods,
pages = 209--212,
year = 1993,
keywords = finite elements, form factors, global illumination,
radiosity,
abstract = Many of the current radiosity algorithms create a
piecewise constant approximation to the actual
radiosity. Through interpolation and extrapolation, a
continuous solution is obtained. An accurate solution
is found by increasing the number of patches which
describe the scene. This has the effect of increasing
the computation time as well as the memory
requirements. By using techniques found in the finite
element method, we can incorporate an interpolation
function directly into our form factor computation. We
can then use less elements to achieve a more accurate
solution. Two algorithms, derived from the finite
element method, are described and analyzed.,
}
@InProceedings{Zatz:1993:GRHb,
author = Harold R. Zatz,
booktitle = Computer Graphics Proceedings, Annual Conference
Series, 1993,
title = Galerkin Radiosity: A Higher Order Solution Method
for Global Illumination,
pages = 213--220,
year = 1993,
keywords = global illumination, radiosity, integral equations,
Galerkin methods, curved surfaces, progressive
refinement,
abstract = This paper presents an alternative radiosity
formulation using piecewise smooth radiance functions
that incorporates curved surfaces directly. Using the
Galerkin integral equation technique as a mathematical
foundation, surface radiance functions are approximated
by polynomials. This model eliminates the need for a
posteriori rendering interpolation, and allows the
direct use of non-planar parametric surfaces.
Convergence problems due to singularities in the
radiosity kernel are analyzed and rectified, and
sources of approximation error are examined. The
incorporation of a shadow masking technique vastly
reduces the need for meshing and associated storage
space-accurate radiosity calculations can often be made
with no meshing. The technique is demonstrated on
traditional radiosity scenes, as well as environments
with untessellated curved surfaces.,
}
@InProceedings{Anderson:1994:VRB,
author = A. Anderson and M. Grant,
booktitle = Photorealistic Rendering in Computer Graphics
(Proceedings of the Second Eurographics Workshop on
Rendering),
title = VISULUX: A Radiosity Based Lighting Design Tool,
publisher = Springer-Verlag,
address = New York,
pages = 227--239,
year = 1994,
bibsource = sig-11-1994,
}
@InProceedings{Arnauldi:1994:DEV,
author = Bruno Arnauldi and Xavier Pueyo and Josep Vilaplana,
booktitle = Photorealistic Rendering in Computer Graphics
(Proceedings of the Second Eurographics Workshop on
Rendering),
title = On the Division of Environments by Virtual Walls for
Radiosity Computation,
publisher = Springer-Verlag,
address = New York,
pages = 198--205,
year = 1994,
bibsource = sig-11-1994,
}
@Book{Ashdown:1994:RPP,
author = Ian Ashdown,
title = Radiosity: A Programmer's Perspective,
publisher = John Wiley \& Sons,
address = New York,
year = 1994,
note = includes C++ source code for fully functional
radiosity renderer,
bibsource = sig-11-1994,
}
@InProceedings{Chalmers:1994:PPP,
author = Alan G. Chalmers and Derek J. Paddon,
booktitle = Photorealistic Rendering in Computer Graphics
(Proceedings of the Second Eurographics Workshop on
Rendering),
title = Parallel Processing of Progressive Refinement
Radiosity Methods,
publisher = Springer-Verlag,
address = New York,
pages = 149--159,
year = 1994,
keywords = parallelism, MIMD,
bibsource = sig-11-1994,
}
@InProceedings{Elias:1994:CMC,
author = Pavol Elias and Martin Feda and Peter Ferschin and
Werner Purgathofer,
editor = V. Skala,
booktitle = Proceedings of the Winter School of Computer Graphics
'94,
title = Cubic Monte Carlo Radiosity,
address = Plzen, Czech Republic,
month = jan,
year = 1994,
bibsource = sig-11-1994,
}
@InProceedings{Elias:1994:CMC,
author = Pavol Elias and Martin Feda and Peter Ferschin and
Werner Purgathofer,
title = Cubic Monte Carlo Radiosity,
booktitle = Winter School of Computer Graphics 1994,
year = 1994,
month = jan,
note = held at University of West Bohemia, Plzen, Czech
Republic, 19-20 January 1994,
abstract = A revised radiosity method for curved surfaces is
proposed, based on the Monte Carlo approach. In order
to improve the accuracy of the solution, a smoothly
reconstructed illumination function with selected
discontinuities is used during the radiosity
computation. The reconstructed function is used as a
random number distribution for position sampling to
overcome the constant radiosity assumption syndrome.
Illumination information stored at the surface control
points is used to preserve continuity of the
illumination across the boundary of adjacent surfaces
and to avoid Mach band effects. Implementation in
Flatland is discussed.,
}
@InProceedings{Elias:1994:MCR,
author = P. Elias and M. Feda and P. Ferschin and W.
Purgathofer,
title = Monte Carlo Radiosity using Piecewise Cubic
Illumination Functions,
booktitle = Winter School on Computer Graphics,
year = 1994,
month = jan,
note = held in Plzen, Czechoslovakia,
}
@InProceedings{Feda:1994:ERI,
author = M. Feda and W. Purgathofer,
title = Efficient Realistic Image Synthesis by Parallel Monte
Carlo Radiosity on Transputers,
booktitle = Transputer Applications and Systems '94,
year = 1994,
publisher = IOS Press,
month = sep,
note = proceedings of the World Transputer Congress '94,
}
@InProceedings{Feda:1994:MCAb,
author = M. Feda and W. Purgathofer,
booktitle = Computer Graphics Forum,
title = A Median Cut Algorithm for Efficient Sampling of
Radiosity Functions,
volume = 13,
number = 3,
organization = Eurographics,
publisher = Basil Blackwell Ltd,
pages = 433--442,
year = 1994,
note = Eurographics '94 Conference issue,
bibsource = sig-11-1994,
}
@InProceedings{Feda:1994:PRR,
author = Martin Feda and Werner Purgathofer,
booktitle = Photorealistic Rendering in Computer Graphics
(Proceedings of the Second Eurographics Workshop on
Rendering),
title = Progressive Refinement Radiosity on a Transputer
Network,
publisher = Springer-Verlag,
address = New York,
pages = 139--148,
year = 1994,
keywords = parallelism,
bibsource = sig-11-1994,
}
@InProceedings{Ferschin:1994:CTT,
author = P. Ferschin and I. Tastl and W. Purgathofer,
title = A Comparison of Techniques for the Transformation of
Radiosity Values to Monitor Colors,
booktitle = IEEE International Conference on Image Processing,
year = 1994,
organization = IEEE Computer Society,
month = nov,
note = held in Austin, Texas,
}
@InProceedings{Forsyth:1994:ERD,
author = David A. Forsyth and Chien Yang and Kim Teo,
booktitle = Fifth Eurographics Workshop on Rendering,
title = Efficient Radiosity in Dynamic Environments,
address = Darmstadt, Germany,
pages = 313--323,
month = jun,
year = 1994,
keywords = hierarchical radiosity, dynamic environments,
bibsource = sig-11-1994,
}
@PhdThesis{Gatenby:1994:IHR,
author = Neil Gatenby,
title = Incorporating Hierarchical Radiodity into
Discontinuity Meshing Radiosity,
type = Ph.D. Thesis,
school = University of Manchester,
address = Manchester, UK,
year = 1994,
keywords = adaptive subdivision, discontinuity meshing, mesh
refinement, hierarchical radiosity, progressive
refinement,
bibsource = sig-11-1994,
}
@InProceedings{Gatenby:1994:ODM,
author = Neil Gatenby and W. T. Hewitt,
booktitle = Fifth Eurographics Workshop on Rendering,
title = Optimizing Discontinuity Meshing Radiosity,
address = Darmstadt, Germany,
pages = 249--258,
month = jun,
year = 1994,
keywords = adaptive subdivision, discontinuity meshing, mesh
refinement, hierarchical radiosity, progressive
refinement,