SIGGRAPH 1986: Technical Papers
Papers:
Sort By
Title
Presenter
A consistent hierarchical representation for vector data
Presenter(s):
[Nelson]
[Samet]
[SIGGRAPH 1986]
A montage method: the overlaying of the computer generated images onto a background photograph
Presenter(s):
[Nakamae]
[Harada]
[Ishizaki]
[Nishita]
[SIGGRAPH 1986]
A multitasking switchboard approach to user interface management
Presenter(s):
[Tanner]
[MacKay]
[Stewart]
[Wein]
[SIGGRAPH 1986]
A radiosity method for non-diffuse environments
Presenter(s):
[Immel]
[Cohen]
[Greenberg]
[SIGGRAPH 1986]
An adaptive subdivision method for surface-fitting from sampled data
Presenter(s):
[Schmitt]
[Barsky]
[Du]
[SIGGRAPH 1986]
An object-oriented user interface management system
Presenter(s):
[Sibert]
[Hurley]
[Bleser]
[SIGGRAPH 1986]
Automated conversion of curvilinear wire-frame models to surface boundary models; a topological approach
Presenter(s):
[Brewer]
[Courter]
[SIGGRAPH 1986]
Combining physical and visual simulation—creation of the planet Jupiter for the film “2010”
Presenter(s):
[Yaeger]
[Upson]
[Myers]
[SIGGRAPH 1986]
Constructive solid geometry for polyhedral objects
Presenter(s):
[Laidlaw]
[Trumbore]
[Hughes]
[SIGGRAPH 1986]
Continuous tone representation of three-dimensional objects illuminated by sky light
Presenter(s):
[Nishita]
[Nakamae]
[SIGGRAPH 1986]
Creating highly-interactive and graphical user interfaces by demonstration
Presenter(s):
[Myers]
[Buxton]
[SIGGRAPH 1986]
Fast constructive-solid geometry display in the pixel-powers graphics system
Presenter(s):
[Goldfeather]
[Hultquist]
[Fuchs]
[SIGGRAPH 1986]
Image rendering by adaptive refinement
Presenter(s):
[Bergman]
[Fuchs]
[Grant]
[Spach]
[SIGGRAPH 1986]
Managing geometric complexity with enhanced procedural models
Presenter(s):
[Amburn]
[Grant]
[Whitted]
[SIGGRAPH 1986]
Ray tracing parametric surface patches utilizing numerical techniques and ray coherence
Presenter(s):
[Joy]
[Bhetanabhotla]
[SIGGRAPH 1986]
Managing geometric complexity with enhanced procedural models
Presenter(s):
[Amburn]
[Grant]
[Whitted]
[SIGGRAPH 1986]
Image rendering by adaptive refinement
Presenter(s):
[Bergman]
[Fuchs]
[Grant]
[Spach]
[SIGGRAPH 1986]
Automated conversion of curvilinear wire-frame models to surface boundary models; a topological approach
Presenter(s):
[Brewer]
[Courter]
[SIGGRAPH 1986]
Two bit/pixel full color encoding
Presenter(s):
[Campbell]
[DeFanti]
[Frederiksen]
[Joyce]
[Leske]
[Lindberg]
[Sandin]
[SIGGRAPH 1986]
Fast constructive-solid geometry display in the pixel-powers graphics system
Presenter(s):
[Goldfeather]
[Hultquist]
[Fuchs]
[SIGGRAPH 1986]
A radiosity method for non-diffuse environments
Presenter(s):
[Immel]
[Cohen]
[Greenberg]
[SIGGRAPH 1986]
Ray tracing parametric surface patches utilizing numerical techniques and ray coherence
Presenter(s):
[Joy]
[Bhetanabhotla]
[SIGGRAPH 1986]
Constructive solid geometry for polyhedral objects
Presenter(s):
[Laidlaw]
[Trumbore]
[Hughes]
[SIGGRAPH 1986]
Creating highly-interactive and graphical user interfaces by demonstration
Presenter(s):
[Myers]
[Buxton]
[SIGGRAPH 1986]
A montage method: the overlaying of the computer generated images onto a background photograph
Presenter(s):
[Nakamae]
[Harada]
[Ishizaki]
[Nishita]
[SIGGRAPH 1986]
A consistent hierarchical representation for vector data
Presenter(s):
[Nelson]
[Samet]
[SIGGRAPH 1986]
Continuous tone representation of three-dimensional objects illuminated by sky light
Presenter(s):
[Nishita]
[Nakamae]
[SIGGRAPH 1986]
Real time design and animation of fractal plants and trees
Presenter(s):
[Oppenheimer]
[SIGGRAPH 1986]
An adaptive subdivision method for surface-fitting from sampled data
Presenter(s):
[Schmitt]
[Barsky]
[Du]
[SIGGRAPH 1986]
An object-oriented user interface management system
Presenter(s):
[Sibert]
[Hurley]
[Bleser]
[SIGGRAPH 1986]
Sort By
Title
Presenter
![A consistent hierarchical representation for vector data](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Nelson_A-Consistent-Hierarchical-Representation-for-Vector-Data-150x150.jpg)
A consistent hierarchical representation for vector data Presenter(s): [Nelson] [Samet]
[SIGGRAPH 1986]
![A montage method: the overlaying of the computer generated images onto a background photograph](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Nakamae_A-MONTAGE-METHOD-THE-OVERLAYING-OF-THE-COMPUTER-GENERATED-IMAGES-ONTO-A-BACKGROUND-PHOTOGRAPH-150x150.jpg)
A montage method: the overlaying of the computer generated images onto a background photograph Presenter(s): [Nakamae] [Harada] [Ishizaki] [Nishita]
[SIGGRAPH 1986]
![A multitasking switchboard approach to user interface management](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Tanner_A-Multitasking-Switchboard-Approach-to-User-Interface-Management-150x150.jpg)
A multitasking switchboard approach to user interface management Presenter(s): [Tanner] [MacKay] [Stewart] [Wein]
[SIGGRAPH 1986]
![A radiosity method for non-diffuse environments](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Immel_A-RADIOSITY-METHOD-FOR-NON-DIFFUSE-ENVIRONMENTS-150x150.jpg)
A radiosity method for non-diffuse environments Presenter(s): [Immel] [Cohen] [Greenberg]
[SIGGRAPH 1986]
![An adaptive subdivision method for surface-fitting from sampled data](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Schmitt_An-Adaptive-Subdivision-Method-for-Surface-Fitting-from-Sampled-Data-150x150.jpg)
An adaptive subdivision method for surface-fitting from sampled data Presenter(s): [Schmitt] [Barsky] [Du]
[SIGGRAPH 1986]
![An object-oriented user interface management system](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Sibert_An-Object-Oriented-User-Interface-Management-System-150x150.jpg)
An object-oriented user interface management system Presenter(s): [Sibert] [Hurley] [Bleser]
[SIGGRAPH 1986]
![Automated conversion of curvilinear wire-frame models to surface boundary models; a topological approach](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Courter_Automated-Conversion-of-Curvilinear-Wire-Frame-Models-to-Surface-Boundary-Models-A-Topological-Approach-150x150.jpg)
Automated conversion of curvilinear wire-frame models to surface boundary models; a topological approach Presenter(s): [Brewer] [Courter]
[SIGGRAPH 1986]
![Combining physical and visual simulation—creation of the planet Jupiter for the film “2010”](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Yaeger_Combining-Physical-and-Visual-Simulation-Creation-of-the-Planet-Jupiter-for-the-Film-2010-150x150.jpg)
Combining physical and visual simulation—creation of the planet Jupiter for the film “2010” Presenter(s): [Yaeger] [Upson] [Myers]
[SIGGRAPH 1986]
![Constructive solid geometry for polyhedral objects](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Laidlaw_Constructive-Solid-Geometry-for-Polyhedral-Objects-150x150.jpg)
Constructive solid geometry for polyhedral objects Presenter(s): [Laidlaw] [Trumbore] [Hughes]
[SIGGRAPH 1986]
![Continuous tone representation of three-dimensional objects illuminated by sky light](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Nishita_CONTINUOUS-TONE-REPRESENTATION-OF-THREE-DIMENSIONAL-OBJECTS-ILLUMINATED-BY-SKY-LIGHT-150x150.jpg)
Continuous tone representation of three-dimensional objects illuminated by sky light Presenter(s): [Nishita] [Nakamae]
[SIGGRAPH 1986]
![Creating highly-interactive and graphical user interfaces by demonstration](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Myers_Creating-Highly-Interactive-and-Graphical-User-Interfaces-by-Demonstration-150x150.jpg)
Creating highly-interactive and graphical user interfaces by demonstration Presenter(s): [Myers] [Buxton]
[SIGGRAPH 1986]
![Fast constructive-solid geometry display in the pixel-powers graphics system](https://history.siggraph.org/wp-content/uploads/2022/09/1986-SIGGRAPH-Image-Not-Available-150x150.jpg)
Fast constructive-solid geometry display in the pixel-powers graphics system Presenter(s): [Goldfeather] [Hultquist] [Fuchs]
[SIGGRAPH 1986]
![Image rendering by adaptive refinement](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Bergman_Image-Rendering-by-Adaptive-Refinement-150x150.jpg)
Image rendering by adaptive refinement Presenter(s): [Bergman] [Fuchs] [Grant] [Spach]
[SIGGRAPH 1986]
![Managing geometric complexity with enhanced procedural models](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Amburn_Managing-Geometric-Complexity-with-Enhanced-Procedural-Models-150x150.jpg)
Managing geometric complexity with enhanced procedural models Presenter(s): [Amburn] [Grant] [Whitted]
[SIGGRAPH 1986]
![Ray tracing parametric surface patches utilizing numerical techniques and ray coherence](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Joy_Ray-Tracing-Parametric-Surface-Patches-Utilizing-Numerical-Techniques-and-Ray-Coherence-150x150.jpg)
Ray tracing parametric surface patches utilizing numerical techniques and ray coherence Presenter(s): [Joy] [Bhetanabhotla]
[SIGGRAPH 1986]
![Managing geometric complexity with enhanced procedural models](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Amburn_Managing-Geometric-Complexity-with-Enhanced-Procedural-Models-150x150.jpg)
Managing geometric complexity with enhanced procedural models Presenter(s): [Amburn] [Grant] [Whitted]
[SIGGRAPH 1986]
![Image rendering by adaptive refinement](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Bergman_Image-Rendering-by-Adaptive-Refinement-150x150.jpg)
Image rendering by adaptive refinement Presenter(s): [Bergman] [Fuchs] [Grant] [Spach]
[SIGGRAPH 1986]
![Automated conversion of curvilinear wire-frame models to surface boundary models; a topological approach](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Courter_Automated-Conversion-of-Curvilinear-Wire-Frame-Models-to-Surface-Boundary-Models-A-Topological-Approach-150x150.jpg)
Automated conversion of curvilinear wire-frame models to surface boundary models; a topological approach Presenter(s): [Brewer] [Courter]
[SIGGRAPH 1986]
![Two bit/pixel full color encoding](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Campbell_TWO-BIT-PIXEL-FULL-COLOR-ENCODING-150x150.jpg)
Two bit/pixel full color encoding Presenter(s): [Campbell] [DeFanti] [Frederiksen] [Joyce] [Leske] [Lindberg] [Sandin]
[SIGGRAPH 1986]
![Fast constructive-solid geometry display in the pixel-powers graphics system](https://history.siggraph.org/wp-content/uploads/2022/09/1986-SIGGRAPH-Image-Not-Available-150x150.jpg)
Fast constructive-solid geometry display in the pixel-powers graphics system Presenter(s): [Goldfeather] [Hultquist] [Fuchs]
[SIGGRAPH 1986]
![A radiosity method for non-diffuse environments](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Immel_A-RADIOSITY-METHOD-FOR-NON-DIFFUSE-ENVIRONMENTS-150x150.jpg)
A radiosity method for non-diffuse environments Presenter(s): [Immel] [Cohen] [Greenberg]
[SIGGRAPH 1986]
![Ray tracing parametric surface patches utilizing numerical techniques and ray coherence](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Joy_Ray-Tracing-Parametric-Surface-Patches-Utilizing-Numerical-Techniques-and-Ray-Coherence-150x150.jpg)
Ray tracing parametric surface patches utilizing numerical techniques and ray coherence Presenter(s): [Joy] [Bhetanabhotla]
[SIGGRAPH 1986]
![Constructive solid geometry for polyhedral objects](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Laidlaw_Constructive-Solid-Geometry-for-Polyhedral-Objects-150x150.jpg)
Constructive solid geometry for polyhedral objects Presenter(s): [Laidlaw] [Trumbore] [Hughes]
[SIGGRAPH 1986]
![Creating highly-interactive and graphical user interfaces by demonstration](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Myers_Creating-Highly-Interactive-and-Graphical-User-Interfaces-by-Demonstration-150x150.jpg)
Creating highly-interactive and graphical user interfaces by demonstration Presenter(s): [Myers] [Buxton]
[SIGGRAPH 1986]
![A montage method: the overlaying of the computer generated images onto a background photograph](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Nakamae_A-MONTAGE-METHOD-THE-OVERLAYING-OF-THE-COMPUTER-GENERATED-IMAGES-ONTO-A-BACKGROUND-PHOTOGRAPH-150x150.jpg)
A montage method: the overlaying of the computer generated images onto a background photograph Presenter(s): [Nakamae] [Harada] [Ishizaki] [Nishita]
[SIGGRAPH 1986]
![A consistent hierarchical representation for vector data](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Nelson_A-Consistent-Hierarchical-Representation-for-Vector-Data-150x150.jpg)
A consistent hierarchical representation for vector data Presenter(s): [Nelson] [Samet]
[SIGGRAPH 1986]
![Continuous tone representation of three-dimensional objects illuminated by sky light](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Nishita_CONTINUOUS-TONE-REPRESENTATION-OF-THREE-DIMENSIONAL-OBJECTS-ILLUMINATED-BY-SKY-LIGHT-150x150.jpg)
Continuous tone representation of three-dimensional objects illuminated by sky light Presenter(s): [Nishita] [Nakamae]
[SIGGRAPH 1986]
![Real time design and animation of fractal plants and trees](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Oppenheimer_Real-Time-Design-and-Animation-of-Fractal-Plants-and-Trees-150x150.jpg)
Real time design and animation of fractal plants and trees Presenter(s): [Oppenheimer]
[SIGGRAPH 1986]
![An adaptive subdivision method for surface-fitting from sampled data](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Schmitt_An-Adaptive-Subdivision-Method-for-Surface-Fitting-from-Sampled-Data-150x150.jpg)
An adaptive subdivision method for surface-fitting from sampled data Presenter(s): [Schmitt] [Barsky] [Du]
[SIGGRAPH 1986]
![An object-oriented user interface management system](https://history.siggraph.org/wp-content/uploads/2023/05/1986-Technical-Papers-Sibert_An-Object-Oriented-User-Interface-Management-System-150x150.jpg)
An object-oriented user interface management system Presenter(s): [Sibert] [Hurley] [Bleser]
[SIGGRAPH 1986]