John M. Snyder
Most Recent Affiliation(s):
- Microsoft Research
Learning Category: Organizing Committee Chair:
Learning Category: Organizing Committee Member:
Learning Category: Jury Member:
Animation/Video(s):
Experience(s):
Learning Category: Presentation(s):
![Directional Sources and Listeners in Interactive Sound Propagation using Reciprocal Wave Field Coding](https://history.siggraph.org/wp-content/uploads/2023/01/2020-Technical-Papers-Chaitanya_Directional-Sources-and-Listeners-in-Interactive-Sound-Propagation-using-Reciprocal-Wave-Field-Coding-150x150.jpg)
Type: [Technical Papers]
Directional Sources and Listeners in Interactive Sound Propagation using Reciprocal Wave Field Coding Presenter(s): [Chaitanya] [Raghuvanshi] [Godin] [Zhang] [Nowrouzezahrai] [Snyder]
[SIGGRAPH 2020]
![Parametric directional coding for precomputed sound propagation](https://history.siggraph.org/wp-content/uploads/2023/02/2018-Techncial-Papers-Raghuvanshi_Parametric-Directional-Coding-for-Precomputed-Sound-Propagation-150x150.jpg)
Type: [Technical Papers]
Parametric directional coding for precomputed sound propagation Presenter(s): [Raghuvanshi] [Snyder]
Entry No.: [108]
[SIGGRAPH 2018]
![A Non-Parametric-Factor Microfacet Model for Isotropic BRDFs](https://history.siggraph.org/wp-content/uploads/2022/06/2016-Image-Not-Available-150x150.jpg)
Type: [Technical Papers]
A Non-Parametric-Factor Microfacet Model for Isotropic BRDFs Presenter(s): [Nowrouzezahrai] [Mahdi] [Snyder]
[SIGGRAPH 2016]
![Parametric wave field coding for precomputed sound propagation](https://history.siggraph.org/wp-content/uploads/2023/02/2014-Technical-Papers-Raghuvanshi_Parametric-Wave-Field-Coding-for-Precomputed-Sound-Propagation-150x150.jpg)
Type: [Technical Papers]
Parametric wave field coding for precomputed sound propagation Presenter(s): [Raghuvanshi] [Snyder]
[SIGGRAPH 2014]
![Computing self-supporting surfaces by regular triangulation](https://history.siggraph.org/wp-content/uploads/2023/03/2013-Technical-Papers-Liu_Computing-Self-Supporting-Surfaces-by-Regular-Triangulation-150x150.jpg)
Type: [Technical Papers]
Computing self-supporting surfaces by regular triangulation Presenter(s): [Liu] [Pan] [Snyder] [Wang] [Guo]
[SIGGRAPH 2013]
![Pocket reflectometry](https://history.siggraph.org/wp-content/uploads/2022/07/2011-SIGGRAPH-Image-Not-Available-150x150.jpg)
Type: [Technical Papers]
Pocket reflectometry Presenter(s): [Ren] [Wang] [Snyder] [Tong] [Guo]
[SIGGRAPH 2011]
![Manifold bootstrapping for SVBRDF capture](https://history.siggraph.org/wp-content/uploads/2023/03/2010-Technical-Papers-Dong_Manifold-Bootstrapping-for-SVBRDF-Capture-150x150.jpg)
Type: [Technical Papers]
Manifold bootstrapping for SVBRDF capture Presenter(s): [Dong] [Wang] [Tong] [Snyder] [Lan] [Ben-Ezra] [Guo]
[SIGGRAPH 2010]
![Precomputed wave simulation for real-time sound propagation of dynamic sources in complex scenes](https://history.siggraph.org/wp-content/uploads/2023/03/2010-Technical-Papers-Raghuvanshi_Precomputed-Wave-Simulation-for-Real-Time-Sound-Propagation-of-Dynamic-Sources-in-Complex-Scenes-150x150.jpg)
Type: [Technical Papers]
Precomputed wave simulation for real-time sound propagation of dynamic sources in complex scenes Presenter(s): [Raghuvanshi] [Snyder] [Mehra] [Lin] [Govindaraju]
[SIGGRAPH 2010]
![Modeling anisotropic surface reflectance with example-based microfacet synthesis](https://history.siggraph.org/wp-content/uploads/2023/03/2008-Technical-Papers-Wang_Modeling-Anisotropic-Surface-Reflectance-150x150.jpg)
Type: [Technical Papers]
Modeling anisotropic surface reflectance with example-based microfacet synthesis Presenter(s): [Wang] [Zhao] [Tong] [Snyder] [Guo]
[SIGGRAPH 2008]
![Real-time soft shadows in dynamic scenes using spherical harmonic exponentiation](https://history.siggraph.org/wp-content/uploads/2023/04/2006-Technical-Papers-Ren_Real-time-Soft-Shadows-in-Dynamic-Scenes-using-Spherical-Harmonic-Exponentiation-150x150.jpg)
Type: [Technical Papers]
Real-time soft shadows in dynamic scenes using spherical harmonic exponentiation Presenter(s): [Ren] [Wang] [Snyder] [Zhou] [Liu] [Sun] [Sloan] [Bao] [Peng] [Guo]
[SIGGRAPH 2006]
![Large mesh deformation using the volumetric graph Laplacian](https://history.siggraph.org/wp-content/uploads/2023/04/2005-Technical-Papers-Zhou_Large-Mesh-Deformation-Using-the-Volumetric-Graph-Laplacian-150x150.jpg)
Type: [Technical Papers]
Large mesh deformation using the volumetric graph Laplacian Presenter(s): [Zhou] [Huang] [Snyder] [Liu] [Bao] [Guo] [Shum]
[SIGGRAPH 2005]
![Local, deformable precomputed radiance transfer](https://history.siggraph.org/wp-content/uploads/2023/04/2005-Technical-Papers-Sloan_Local-Deformable-Precomputed-Radiance-Transfer-150x150.jpg)
Type: [Technical Papers]
Local, deformable precomputed radiance transfer Presenter(s): [Sloan] [Luna] [Snyder]
[SIGGRAPH 2005]
![Bi-scale radiance transfer](https://history.siggraph.org/wp-content/uploads/2023/05/2003-Technical-Papers-Sloan-Liu_Bi-Scale-Radiance-Transfer-150x150.jpg)
Type: [Technical Papers]
Bi-scale radiance transfer Presenter(s): [Sloan] [Liu] [Shum] [Snyder]
[SIGGRAPH 2003]
![Clustered principal components for precomputed radiance transfer](https://history.siggraph.org/wp-content/uploads/2023/05/2003-Technical-Papers-Sloan-Hall_Clustered-Principal-Components-for-Precomputed-Radiance-Transfer-150x150.jpg)
Type: [Technical Papers]
Clustered principal components for precomputed radiance transfer Presenter(s): [Sloan] [Hall] [Hart] [Snyder]
[SIGGRAPH 2003]
![Precomputed radiance transfer for real-time rendering in dynamic, low-frequency lighting environments](https://history.siggraph.org/wp-content/uploads/2023/05/2002-Technical-Papers-Sloan_Precomputed-Radiance-Transfer-for-Real-Time-Rendering-in-Dynamic-Low-Frequency-Lighting-Environments-1-150x150.jpg)
Type: [Technical Papers]
Precomputed radiance transfer for real-time rendering in dynamic, low-frequency lighting environments Presenter(s): [Sloan] [Kautz] [Snyder]
[SIGGRAPH 2002]
![Texture mapping progressive meshes](https://history.siggraph.org/wp-content/uploads/2023/06/2001-Technical-Papers-Sander_Texture-Mapping-Progressive-Meshes-150x150.jpg)
Type: [Technical Papers]
Texture mapping progressive meshes Presenter(s): [Sander] [Snyder] [Gortler] [Hoppe]
[SIGGRAPH 2001]
![Silhouette clipping](https://history.siggraph.org/wp-content/uploads/2023/05/2000-Technical-Papers-Sander_Silhouette-Clipping-150x150.jpg)
Type: [Technical Papers]
Silhouette clipping Presenter(s): [Sander] [Gu] [Gortler] [Hoppe] [Snyder]
[SIGGRAPH 2000]
![Visibility sorting and compositing without splitting for image layer decompositions](https://history.siggraph.org/wp-content/uploads/2023/05/1998-Technical-Papers-Snyder_Visibility-Sorting-and-Compositing-without-Splitting-for-Image-Layer-Decompositions-150x150.jpg)
Type: [Technical Papers]
Visibility sorting and compositing without splitting for image layer decompositions Presenter(s): [Snyder] [Lengyel]
[SIGGRAPH 1998]
![Rendering with coherent layers](https://history.siggraph.org/wp-content/uploads/2023/05/1997-Technical-Papers-Lengyel_Rendering-With-Coherent-Layers-150x150.jpg)
Type: [Technical Papers]
Rendering with coherent layers Presenter(s): [Lengyel] [Snyder]
[SIGGRAPH 1997]
![Hierarchical image caching for accelerated walkthroughs of complex environments](https://history.siggraph.org/wp-content/uploads/2023/05/1996-Technical-Papers-Shade_Hierarchical-Image-Caching-for-Accelerated-Walkthroughs-of-Complex-Environments-150x150.jpg)
Type: [Technical Papers]
Hierarchical image caching for accelerated walkthroughs of complex environments Presenter(s): [Shade] [Lischinski] [Salesin] [DeRose] [Snyder]
[SIGGRAPH 1996]
![An interactive tool for placing curved surfaces without interpenetration](https://history.siggraph.org/wp-content/uploads/2023/05/1995-Technical-Papers-Snyder_An-Interactive-Tool-for-Placing-Curved-Surfaces-without-Interpenetration-150x150.jpg)
Type: [Technical Papers]
An interactive tool for placing curved surfaces without interpenetration Presenter(s): [Snyder]
[SIGGRAPH 1995]
![Optimization - An Emerging Tool in Computer Graphics](https://history.siggraph.org/wp-content/uploads/2022/04/1994-Panels-07-Optimization-An-Emerging-Tool-in-Computer-Graphics-150x150.jpg)
Type: [Panels]
Optimization - An Emerging Tool in Computer Graphics Organizer(s): [Marks]
Presenter(s): [Cohen] [Ngo] [Shieber] [Snyder]
Entry No.: [07]
[SIGGRAPH 1994]
![Interval methods for multi-point collisions between time-dependent curved surfaces](https://history.siggraph.org/wp-content/uploads/2023/05/1993-Technical-Papers-Snyder_Interval-Methods-for-Multi-Point-Collisions-between-Time-Dependent-Curved-Surfaces-150x150.jpg)
Type: [Technical Papers]
Interval methods for multi-point collisions between time-dependent curved surfaces Presenter(s): [Snyder] [Woodbury] [Fleischer] [Currin] [Barr]
[SIGGRAPH 1993]
![Generative modeling: a symbolic system for geometric modeling](https://history.siggraph.org/wp-content/uploads/2023/05/1992-Technical-Papers-Snyder_Generative-Modeling-A-Symbolic-System-for-Geometric-Modeling-150x150.jpg)
Type: [Technical Papers]
Generative modeling: a symbolic system for geometric modeling Presenter(s): [Snyder] [Kajiya]
[SIGGRAPH 1992]
![Interval analysis for computer graphics](https://history.siggraph.org/wp-content/uploads/2023/05/1992-Technical-Papers-Snyder_Interval-Analysis-For-Computer-Graphics-150x150.jpg)
Type: [Technical Papers]
Interval analysis for computer graphics Presenter(s): [Snyder]
[SIGGRAPH 1992]
![Ray tracing complex models containing surface tessellations](https://history.siggraph.org/wp-content/uploads/2023/05/1987-Technical-Papers-Snyder_Ray-Tracing-Complex-Models-Containing-Surface-Tessellations-150x150.jpg)
Type: [Technical Papers]
Ray tracing complex models containing surface tessellations Presenter(s): [Snyder] [Barr]
[SIGGRAPH 1987]
Role(s):
- Emerging Technologies Presenter
- Panel Presenter
- Technical Paper Presenter
- Technical Papers Jury Member
- Technical Papers Organizing Committee Chair/Co-Chair
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