Mark Pauly
Most Recent Affiliation(s):
- Stanford University, EPFL, Associate Professor of Computer Science
Other Affiliation(s):
- Eidgenössische Technische Hochschule (ETH) Zürich
- École Polytechnique Fédérale de Lausanne (EPFL)
Bio:
SIGGRAPH 2013
Mark Pauly is an associate professor of computer science at EPFL in Lausanne, Switzerland, where he directs the Computer Graphics and Geometry Laboratory. Prior to joining EPFL he was an assistant professor at ETH Zurich and a postdoctoral scholar at Stanford University. He received his Ph.D. degree in 2003 from ETH Zurich. His research interests include computer graphics and animation, shape analysis, geometry processing, and architectural design.
Course Organizer:
Learning Jury Member:
Experience(s):
Learning Presentation(s):
![Computational Exploration of Multistable Elastic Knots](https://history.siggraph.org/wp-content/uploads/2024/02/2023_Technical-Paper_Vidulis_Computational-Exploration-of-Multistable-Elastic-Knots-150x150.jpg)
Type: [Technical Papers]
Computational Exploration of Multistable Elastic Knots Presenter(s): [Vidulis] [Ren] [Panetta] [Grinspun] [Pauly]
[SIGGRAPH 2023]
![Umbrella meshes: elastic mechanisms for freeform shape deployment](https://history.siggraph.org/wp-content/uploads/2023/06/2022-Technical-Papers-Ren_-Umbrella-Meshes-Elastic-Mechanisms-for-Freeform-Shape-Deployment-150x150.jpg)
Type: [Technical Papers]
Umbrella meshes: elastic mechanisms for freeform shape deployment Presenter(s): [Ren] [Kusupati] [Panetta] [Isvoranu] [Pellis] [Chen] [Pauly]
[SIGGRAPH 2022]
![3D weaving with curved ribbons](https://history.siggraph.org/wp-content/uploads/2023/06/2021-Technical-Papers-Ren_3D-Weaving-with-Curved-Ribbons-150x150.jpg)
Type: [Technical Papers]
3D weaving with curved ribbons Presenter(s): [Ren] [Panetta] [Chen] [Isvoranu] [Poincloux] [Brandt] [Martin] [Pauly]
[SIGGRAPH 2021]
![Bistable auxetic surface structures](https://history.siggraph.org/wp-content/uploads/2023/06/2021-Technical-Papers-Chen_Bistable-Auxetic-Surface-Structures-150x150.jpg)
Type: [Technical Papers]
Bistable auxetic surface structures Presenter(s): [Chen] [Panetta] [Schnaubelt] [Pauly]
[SIGGRAPH 2021]
![Computational design of weingarten surfaces](https://history.siggraph.org/wp-content/uploads/2023/06/2021-Technical-Papers-Pellis_Computational-Design-of-Weingarten-Surfaces-150x150.jpg)
Type: [Technical Papers]
Computational design of weingarten surfaces Presenter(s): [Pellis] [Kilian] [Pottmann] [Pauly]
[SIGGRAPH 2021]
![Computational inverse design of surface-based inflatables](https://history.siggraph.org/wp-content/uploads/2023/06/2021-Technical-Papers-Panetta_Computational-Inverse-Design-of-Surface-based-Inflatables-150x150.jpg)
Type: [Technical Papers]
Computational inverse design of surface-based inflatables Presenter(s): [Panetta] [Isvoranu] [Chen] [Siéfert] [Roman] [Pauly]
[SIGGRAPH 2021]
![MOCCA: modeling and optimizing cone-joints for complex assemblies](https://history.siggraph.org/wp-content/uploads/2023/06/2021-Technical-Papers-Wang_MOCCA-Modeling-and-Optimizing-Cone-joints-for-Complex-Assemblies-150x150.jpg)
Type: [Technical Papers]
MOCCA: modeling and optimizing cone-joints for complex assemblies Presenter(s): [Wang] [Song] [Pauly]
[SIGGRAPH 2021]
![X-Shells: a new class of deployable beam structures](https://history.siggraph.org/wp-content/uploads/2023/01/2019-Technical-Papers-Panetta_X-Shells-A-new-class-of-deployable-beam-structures-150x150.jpg)
Type: [Technical Papers]
X-Shells: a new class of deployable beam structures Presenter(s): [Panetta] [Konaković-Luković] [Isvoranu] [Bouleau] [Pauly]
[SIGGRAPH 2019]
![Rapid deployment of curved surfaces via programmable auxetics](https://history.siggraph.org/wp-content/uploads/2023/02/2018-Technical-Papers-Konakovic-Lukovic_Rapid-Deployment-of-Curved-Surfaces-via-Programmable-Auxetics-150x150.jpg)
Type: [Technical Papers]
Rapid deployment of curved surfaces via programmable auxetics Presenter(s): [Konaković-Luković] [Panetta] [Crane] [Pauly]
Entry No.: [106]
[SIGGRAPH 2018]
![Phace: physics-based face modeling and animation](https://history.siggraph.org/wp-content/uploads/2023/02/2017-Technical-Papers-Ichim_Phace-Physics-based-Face-Modeling-and-Animation-1-150x150.jpg)
Type: [Technical Papers]
Phace: physics-based face modeling and animation Presenter(s): [Ichim] [Kadlecek] [Kavan] [Pauly]
[SIGGRAPH 2017]
![Beyond developable: computational design and fabrication with auxetic materials](https://history.siggraph.org/wp-content/uploads/2023/02/2016-Technical-Papers-Konakovic_Beyond-Developable_-Computational-Design-and-Fabrication-with-Auxetic-Materials-150x150.jpg)
Type: [Technical Papers]
Beyond developable: computational design and fabrication with auxetic materials Presenter(s): [Pauly] [Konaković-Luković] [Crane] [Bouaziz] [Deng] [Piker]
[SIGGRAPH 2016]
![Dynamic 3D avatar creation from hand-held video input](https://history.siggraph.org/wp-content/uploads/2022/07/2015-SIGGRAPH-Image-Not-Available-150x150.jpg)
Type: [Technical Papers]
Dynamic 3D avatar creation from hand-held video input Presenter(s): [Ichim] [Bouaziz] [Pauly]
[SIGGRAPH 2015]
![Coupled Structure-From-Motion and 3D Symmetry Detection for Urban Façades](https://history.siggraph.org/wp-content/uploads/2022/07/2014-SIGGRAPH-Image-Not-Available-150x150.jpg)
Type: [Technical Papers]
Coupled Structure-From-Motion and 3D Symmetry Detection for Urban Façades Presenter(s): [Ceylan] [Mitra] [Zheng] [Pauly]
[SIGGRAPH 2014]
![High-contrast computational caustic design](https://history.siggraph.org/wp-content/uploads/2023/02/2014-Technical-Papers-Schwartzburg_High-contrast-Computational-Caustic-Design-150x150.jpg)
Type: [Technical Papers]
High-contrast computational caustic design Presenter(s): [Schwartzburg] [Testuz] [Pauly] [Tagliasacchi]
[SIGGRAPH 2014]
![Projective dynamics: fusing constraint projections for fast simulation](https://history.siggraph.org/wp-content/uploads/2023/02/2014-Technical-Papers-Bouaziz_Projective-Dynamics-Fusing-Constraint-Projections-for-Fast-Simulation-150x150.jpg)
Type: [Technical Papers]
Projective dynamics: fusing constraint projections for fast simulation Presenter(s): [Bouaziz] [Martin] [Liu] [Kavan] [Pauly]
[SIGGRAPH 2014]
![Wire mesh design](https://history.siggraph.org/wp-content/uploads/2023/02/2014-Technical-Papers-Garg_Wire-Mesh-Design-150x150.jpg)
Type: [Technical Papers]
Wire mesh design Presenter(s): [Garg] [Sageman-Furnas] [Deng] [Yue] [Grinspun] [Pauly] [Wardetzky]
[SIGGRAPH 2014]
![Dynamic 2D/3D Registration for the Kinect](https://history.siggraph.org/wp-content/uploads/2022/01/2013-21-Dynamic-2D3D-Registration-for-the-Kinect-150x150.jpg)
Type: [Courses]
Dynamic 2D/3D Registration for the Kinect Organizer(s): [Bouaziz]
Presenter(s): [Bouaziz] [Pauly]
Entry No.: [21]
[SIGGRAPH 2013]
![Online modeling for realtime facial animation](https://history.siggraph.org/wp-content/uploads/2023/03/2013-Technical-Papers-Bouaziz_Online-Modeling-For-Realtime-Facial-Animation-150x150.jpg)
Type: [Technical Papers]
Online modeling for realtime facial animation Presenter(s): [Bouaziz] [Wang] [Pauly]
[SIGGRAPH 2013]
![Temporally Coherent Completion of Dynamic Shapes](https://history.siggraph.org/wp-content/uploads/2023/03/2012-Technical-Papers-Li_Temporally-Coherent-Completion-of-Dynamic-Shapes-150x150.jpg)
Type: [Technical Papers]
Temporally Coherent Completion of Dynamic Shapes Presenter(s): [Li] [Luo] [Vlasic] [Peers] [Popović] [Pauly] [Rusinkiewicz]
[SIGGRAPH 2012]
![Realtime performance-based facial animation](https://history.siggraph.org/wp-content/uploads/2023/04/2011-Technical-Papers-Weise_Realtime-Performance-Based-Facial-Animation-150x150.jpg)
Type: [Technical Papers]
Realtime performance-based facial animation Presenter(s): [Weise] [Bouaziz] [Li] [Pauly]
[SIGGRAPH 2011]
![Discrete scale axis representations for 3D geometry](https://history.siggraph.org/wp-content/uploads/2023/03/2010-Technical-Papers-Miklos_Discrete-Scale-Axis-Representations-for-3D-Geometry-150x150.jpg)
Type: [Technical Papers]
Discrete scale axis representations for 3D geometry Presenter(s): [Miklos] [Giesen] [Pauly]
[SIGGRAPH 2010]
![Example-based facial rigging](https://history.siggraph.org/wp-content/uploads/2023/03/2010-Technical-Papers-Li_Example-Based-Facial-Rigging-150x150.jpg)
Type: [Technical Papers]
Example-based facial rigging Presenter(s): [Li] [Weise] [Pauly]
[SIGGRAPH 2010]
![Paneling architectural freeform surfaces](https://history.siggraph.org/wp-content/uploads/2023/03/2010-Technical-Papers-Eigensatz_Paneling-Architectural-Freeform-Surfaces-150x150.jpg)
Type: [Technical Papers]
Paneling architectural freeform surfaces Presenter(s): [Eigensatz] [Kilian] [Schiftner] [Mitra] [Pottmann] [Pauly]
[SIGGRAPH 2010]
![Automatic generation of tourist maps](https://history.siggraph.org/wp-content/uploads/2023/03/2008-Technical-Papers-Grabler_Automatic-Generation-of-Tourist-Maps-150x150.jpg)
Type: [Technical Papers]
Automatic generation of tourist maps Presenter(s): [Grabler] [Agrawala] [Sumner] [Pauly]
[SIGGRAPH 2008]
![Discovering structural regularity in 3D geometry](https://history.siggraph.org/wp-content/uploads/2023/03/2008-Technical-Papers-Pauly_Discovering-Structural-Regularity-in-3D-Geometry-150x150.jpg)
Type: [Technical Papers]
Discovering structural regularity in 3D geometry Presenter(s): [Pauly] [Mitra] [Wallner] [Pottmann] [Guibas]
[SIGGRAPH 2008]
![Adaptively sampled particle fluids](https://history.siggraph.org/wp-content/uploads/2023/05/2007-Technical-Papers-Adams_Adaptively-Sampled-Particle-Fluids-150x150.jpg)
Type: [Technical Papers]
Adaptively sampled particle fluids Presenter(s): [Adams] [Pauly] [Keiser] [Guibas]
[SIGGRAPH 2007]
![Embedded deformation for shape manipulation](https://history.siggraph.org/wp-content/uploads/2023/05/2007-Technical-Papers-Sumner_Embedded-Deformation-for-Shape-Manipulation-150x150.jpg)
Type: [Technical Papers]
Embedded deformation for shape manipulation Presenter(s): [Sumner] [Schmid] [Pauly]
[SIGGRAPH 2007]
![Partial and approximate symmetry detection for 3D geometry](https://history.siggraph.org/wp-content/uploads/2023/04/2006-Technical-Papers-Mitra_Partial-and-Approximate-Symmetry-Detection-for-3D-Geometry-150x150.jpg)
Type: [Technical Papers]
Partial and approximate symmetry detection for 3D geometry Presenter(s): [Mitra] [Guibas] [Pauly]
[SIGGRAPH 2006]
![Meshless animation of fracturing solids](https://history.siggraph.org/wp-content/uploads/2023/04/2005-Technical-Papers-Pauly_Meshless-Animation-of-Fracturing-Solids-150x150.jpg)
Type: [Technical Papers]
Meshless animation of fracturing solids Presenter(s): [Pauly] [Keiser] [Adams] [Dutré] [Gross] [Guibas]
[SIGGRAPH 2005]
![Point-Based Computer Graphics](https://history.siggraph.org/wp-content/uploads/2021/10/2004-6-Point-Based-Computer-Graphics-150x150.jpg)
Type: [Courses]
Point-Based Computer Graphics Organizer(s): [Gross] [Pfister] [Zwicker]
Presenter(s): [Gross] [Pfister] [Zwicker] [Alexa] [Pauly] [Stamminger]
Entry No.: [06]
[SIGGRAPH 2004]
![Shape modeling with point-sampled geometry](https://history.siggraph.org/wp-content/uploads/2023/05/2003-Technical-Papers-Pauly_Shape-Modeling-with-Point-Sampled-Geometry-150x150.jpg)
Type: [Technical Papers]
Shape modeling with point-sampled geometry Presenter(s): [Pauly] [Keiser] [Kobbelt] [Gross]
[SIGGRAPH 2003]
![Pointshop 3D: an interactive system for point-based surface editing](https://history.siggraph.org/wp-content/uploads/2023/05/2002-Technical-Papers-Zwicker_Pointshop-3D_-An-Interactive-System-for-Point-Based-Surface-Editing-1-150x150.jpg)
Type: [Technical Papers]
Pointshop 3D: an interactive system for point-based surface editing Presenter(s): [Zwicker] [Pauly] [Knoll] [Gross]
[SIGGRAPH 2002]
![Spectral processing of point-sampled geometry](https://history.siggraph.org/wp-content/uploads/2023/06/2001-Technical-Papers-Pauly_Spectral-Processing-of-Point-Sampled-Geometry-150x150.jpg)
Type: [Technical Papers]
Spectral processing of point-sampled geometry Presenter(s): [Pauly] [Gross]
[SIGGRAPH 2001]
Learning Moderator Presentation(s):
![Controllable high-fidelity facial performance transfer](https://history.siggraph.org/wp-content/uploads/2023/03/2014-Technical-Papers-Xu_Controllable-High-fidelity-Facial-Performance-Transfer-150x150.jpg)
Type: [Technical Papers]
Controllable high-fidelity facial performance transfer Presenter(s): [Xu] [Liu] [Chai] [Tong]
[SIGGRAPH 2014]
![Displaced dynamic expression regression for real-time facial tracking and animation](https://history.siggraph.org/wp-content/uploads/2023/02/2014-Technical-Papers-Cao_Displaced-Dynamic-Expression-Regression-for-Real-time-Facial-Tracking-and-Animation-150x150.jpg)
Type: [Technical Papers]
Displaced dynamic expression regression for real-time facial tracking and animation Presenter(s): [Cao] [Hou] [Zhou]
[SIGGRAPH 2014]
![Facial Performance Enhancement Using Dynamic Shape-Space Analysis](https://history.siggraph.org/wp-content/uploads/2022/07/2014-SIGGRAPH-Image-Not-Available-150x150.jpg)
Type: [Technical Papers]
Facial Performance Enhancement Using Dynamic Shape-Space Analysis Presenter(s): [Bermano] [Bradley] [Beeler] [Zund] [Nowrouzezahrai] [Baran] [Sorkine-Hornung] [Pfister] [Sumner] [Bickel] [Gross]
[SIGGRAPH 2014]
![Rigid stabilization of facial expressions](https://history.siggraph.org/wp-content/uploads/2023/02/2014-Technical-Papers-Beeler_Rigid-Stabilization-of-Facial-Expressions-150x150.jpg)
Type: [Technical Papers]
Rigid stabilization of facial expressions Presenter(s): [Beeler] [Bradley]
[SIGGRAPH 2014]
Role(s):
- Course Organizer
- Course Presenter
- Studio (SIGGRAPH Lab) Presenter
- Technical Paper Moderator
- Technical Paper Presenter
- Technical Papers Jury Member