Bernhard Thomaszewski
Most Recent Affiliation(s):
- Université de Montréal, ETH Zürich, Disney Research Zurich
Learning Category: Jury Member:
Learning Category: Presentation(s):
![A Temporal Coherent Topology Optimization Approach for Assembly Planning of Bespoke Frame Structures](https://history.siggraph.org/wp-content/uploads/2024/02/2023-Tech-Papers-Wang_A-Temporal-Coherent-Topology-Optimization-Approach-for-Assembly-Planning-of-Bespoke-Frame-Structures-150x150.jpg)
Type: [Technical Papers]
A Temporal Coherent Topology Optimization Approach for Assembly Planning of Bespoke Frame Structures Presenter(s): [Wang] [Kennel-Maushart] [Huang] [Thomaszewski] [Coros]
[SIGGRAPH 2023]
![Beyond Chainmail: Computational Modeling of Discrete Interlocking Materials](https://history.siggraph.org/wp-content/uploads/2024/02/2023-Tech-Papers-Tang_Beyond-Chainmail-Computational-Modeling-of-Discrete-Interlocking-Materials-150x150.jpg)
Type: [Technical Papers]
Beyond Chainmail: Computational Modeling of Discrete Interlocking Materials Presenter(s): [Tang] [Coros] [Thomaszewski]
[SIGGRAPH 2023]
![Differentiable Stripe Patterns for Inverse Design of Structured Surfaces](https://history.siggraph.org/wp-content/uploads/2024/02/2023-Tech-Papers-Montes-Maestre_Differentiable-Stripe-Patterns-for-Inverse-Design-of-Structured-Surfaces-150x150.jpg)
Type: [Technical Papers]
Differentiable Stripe Patterns for Inverse Design of Structured Surfaces Presenter(s): [Maestre] [Du] [Hinchet] [Coros] [Thomaszewski]
[SIGGRAPH 2023]
![Nonlinear Compliant Modes for Large-deformation Analysis of Flexible Structures](https://history.siggraph.org/wp-content/uploads/2024/02/2023_Technical-Paper_Duenser_Nonlinear-Compliant-Modes-150x150.jpg)
Type: [Technical Papers]
Nonlinear Compliant Modes for Large-deformation Analysis of Flexible Structures Presenter(s): [Duenser] [Thomaszewski] [Poranne] [Coros]
[SIGGRAPH 2023]
![Computational Design of Skintight Clothing](https://history.siggraph.org/wp-content/uploads/2023/02/2020-Technical-Papers-Montes_Computational-Design-of-Skintight-Clothing-150x150.jpg)
Type: [Technical Papers]
Computational Design of Skintight Clothing Presenter(s): [Maestre] [Thomaszewski] [Mudur] [Popa]
[SIGGRAPH 2020]
![RoboCut: hot-wire cutting with robot-controlled flexible rods](https://history.siggraph.org/wp-content/uploads/2023/02/2020-Technical-Papers-Duenser_RoboCut-150x150.jpg)
Type: [Technical Papers]
RoboCut: hot-wire cutting with robot-controlled flexible rods Presenter(s): [Duenser] [Poranne] [Thomaszewski] [Coros]
[SIGGRAPH 2020]
![Star-shaped metrics for mechanical metamaterial design](https://history.siggraph.org/wp-content/uploads/2023/01/2019-Technical-Papers-Martinez_Star-Shaped-Metrics-for-Mechanical-Metamaterial-Design-150x150.jpg)
Type: [Technical Papers]
Star-shaped metrics for mechanical metamaterial design Presenter(s): [Martínez] [Skouras] [Schumacher] [Hornus] [Lefebvre] [Thomaszewski]
[SIGGRAPH 2019]
![An advection-reflection solver for detail-preserving fluid simulation](https://history.siggraph.org/wp-content/uploads/2023/02/2018-Technical-Papers-Zehnder_An-Advection-Reflection-Solver-for-Detail-Preserving-Fluid-Simulation-150x150.jpg)
Type: [Technical Papers]
An advection-reflection solver for detail-preserving fluid simulation Presenter(s): [Zehnder] [Narain] [Thomaszewski]
Entry No.: [85]
[SIGGRAPH 2018]
![FEPR: fast energy projection for real-time simulation of deformable objects](https://history.siggraph.org/wp-content/uploads/2023/02/2018-Technical-Papers-Dinev_FEPR_-Fast-Energy-Projection-for-Real-Time-Simulation-of-Deformable-Objects-150x150.jpg)
Type: [Technical Papers]
FEPR: fast energy projection for real-time simulation of deformable objects Presenter(s): [Dinev] [Liu] [Li] [Thomaszewski]
Entry No.: [79]
[SIGGRAPH 2018]
![Mechanical characterization of structured sheet materials](https://history.siggraph.org/wp-content/uploads/2023/02/2018-Technical-Papers-Schumacher_Mechanical-Characterization-of-Structured-Sheet-Materials-150x150.jpg)
Type: [Technical Papers]
Mechanical characterization of structured sheet materials Presenter(s): [Schumacher] [Marschner] [Gross] [Thomaszewski]
Entry No.: [148]
[SIGGRAPH 2018]
![A computational design tool for compliant mechanisms](https://history.siggraph.org/wp-content/uploads/2023/02/2017-Technical-Papers-Megaro_A-Computational-Design-Tool-for-Compliant-Mechanisms-1-150x150.jpg)
Type: [Technical Papers]
A computational design tool for compliant mechanisms Presenter(s): [Megaro] [Zehnder] [Bächer] [Coros] [Gross] [Thomaszewski]
[SIGGRAPH 2017]
![Computational design and automated fabrication of kirchhoff-plateau surfaces](https://history.siggraph.org/wp-content/uploads/2022/07/2017-SIGGRAPH-Image-Not-Available-150x150.jpg)
Type: [Technical Papers]
Computational design and automated fabrication of kirchhoff-plateau surfaces Presenter(s): [Rodríguez] [Otaduy] [Thomaszewski]
[SIGGRAPH 2017]
![Designing structurally-sound ornamental curve networks](https://history.siggraph.org/wp-content/uploads/2023/02/2016-Technical-Papers-Zehnder_Designing-Structurally-Sound-Ornamental-Curve-Networks-150x150.jpg)
Type: [Technical Papers]
Designing structurally-sound ornamental curve networks Presenter(s): [Zehnder] [Coros] [Thomaszewski]
[SIGGRAPH 2016]
![Design and fabrication of flexible rod meshes](https://history.siggraph.org/wp-content/uploads/2023/04/2015-Technical-Papers-Perez_Design-and-Fabrication-of-Flexible-Rod-Meshes-150x150.jpg)
Type: [Technical Papers]
Design and fabrication of flexible rod meshes Presenter(s): [Rodríguez] [Thomaszewski] [Coros] [Bickel] [Canabal] [Sumner] [Otaduy]
[SIGGRAPH 2015]
![LinkEdit: interactive linkage editing using symbolic kinematics](https://history.siggraph.org/wp-content/uploads/2022/07/2015-SIGGRAPH-Image-Not-Available-150x150.jpg)
Type: [Technical Papers]
LinkEdit: interactive linkage editing using symbolic kinematics Presenter(s): [Bächer] [Coros] [Thomaszewski]
[SIGGRAPH 2015]
![Computational design of linkage-based characters](https://history.siggraph.org/wp-content/uploads/2023/02/2014-Technical-Papers-Thomaszewski_Computational-Design-of-Linkage-Based-Characters-150x150.jpg)
Type: [Technical Papers]
Computational design of linkage-based characters Presenter(s): [Thomaszewski] [Coros] [Gauge] [Megaro] [Grinspun] [Gross]
[SIGGRAPH 2014]
![Designing inflatable structures](https://history.siggraph.org/wp-content/uploads/2023/02/2014-Technical-Papers-Skouras_Designing-Inflatable-Structures-150x150.jpg)
Type: [Technical Papers]
Designing inflatable structures Presenter(s): [Skouras] [Thomaszewski] [Kaufmann] [Garg] [Bickel] [Grinspun] [Gross]
[SIGGRAPH 2014]
![Subspace clothing simulation using adaptive bases](https://history.siggraph.org/wp-content/uploads/2023/02/2014-Technical-Papers-Hahn_Subspace-Clothing-Simulation-Using-Adaptive-Bases-150x150.jpg)
Type: [Technical Papers]
Subspace clothing simulation using adaptive bases Presenter(s): [Hahn] [Thomaszewski] [Coros] [Sumner] [Cole] [Meyer] [DeRose] [Gross]
[SIGGRAPH 2014]
![Computational design of actuated deformable characters](https://history.siggraph.org/wp-content/uploads/2023/03/2013-Technical-Papers-Skouras_Computational-Design-of-Actuated-Deformable-Characters-150x150.jpg)
Type: [Technical Papers]
Computational design of actuated deformable characters Presenter(s): [Skouras] [Thomaszewski] [Coros] [Bickel] [Gross]
[SIGGRAPH 2013]
![Computational design of mechanical characters](https://history.siggraph.org/wp-content/uploads/2023/03/2013-Technical-Papers-Coros_Computational-Design-of-Mechanical-Characters-150x150.jpg)
Type: [Technical Papers]
Computational design of mechanical characters Presenter(s): [Coros] [Thomaszewski] [Sueda] [Forberg] [Sumner] [Matusik] [Bickel]
[SIGGRAPH 2013]
![Deformable objects alive!](https://history.siggraph.org/wp-content/uploads/2023/03/2012-Technical-Papers-Coros_Deformable-Objects-Alive-150x150.jpg)
Type: [Technical Papers]
Deformable objects alive! Presenter(s): [Coros] [Martin] [Thomaszewski] [Schumacher] [Sumner] [Gross]
[SIGGRAPH 2012]
![Physical face cloning](https://history.siggraph.org/wp-content/uploads/2023/03/2012-Technical-Papers-Bickel_Physical-Face-Cloning-150x150.jpg)
Type: [Technical Papers]
Physical face cloning Presenter(s): [Bickel] [Kaufmann] [Skouras] [Thomaszewski] [Bradley] [Beeler] [Jackson] [Marschner] [Matusik] [Gross]
[SIGGRAPH 2012]
![Rig-space physics](https://history.siggraph.org/wp-content/uploads/2023/03/2012-Technical-Papers-Hahn_Rig-Space-Physics-150x150.jpg)
Type: [Technical Papers]
Rig-space physics Presenter(s): [Hahn] [Martin] [Thomaszewski] [Sumner] [Coros] [Gross]
[SIGGRAPH 2012]
![Example-based elastic materials](https://history.siggraph.org/wp-content/uploads/2023/04/2011-Technical-Papers-Martin_Example-Based-Elastic-Materials-150x150.jpg)
Type: [Technical Papers]
Example-based elastic materials Presenter(s): [Martin] [Thomaszewski] [Grinspun] [Gross]
[SIGGRAPH 2011]
Learning Category: Moderator:
![Color contoning for 3D printing](https://history.siggraph.org/wp-content/uploads/2023/02/2017-Technical-Papers-Babaei_Color-Contoning-for-3D-Printing-150x150.jpg)
Type: [Technical Papers]
Color contoning for 3D printing Presenter(s): [Babaei] [Vidimče] [Foshey] [Kaspar] [Didyk] [Matusik]
[SIGGRAPH 2017]
![Orthotropic k-nearest foams for additive manufacturing](https://history.siggraph.org/wp-content/uploads/2023/02/2017-Technical-Papers-Martinez_Orthotropic-k-nearest-foams-for-additive-manufacturing-150x150.jpg)
Type: [Technical Papers]
Orthotropic k-nearest foams for additive manufacturing Presenter(s): [Martínez] [Song] [Dumas] [Lefebvre]
[SIGGRAPH 2017]
![Printing anisotropic appearance with magnetic flakes](https://history.siggraph.org/wp-content/uploads/2023/02/2017-Technical-Papers-Pereira_Printing-Anisotropic-Appearance-with-Magnetic-Flakes-150x150.jpg)
Type: [Technical Papers]
Printing anisotropic appearance with magnetic flakes Presenter(s): [Pereira] [Paes Leme] [Marschner] [Rusinkiewicz]
[SIGGRAPH 2017]
![Two-Scale Topology Optimization with Microstructures](https://history.siggraph.org/wp-content/uploads/2022/07/2017-SIGGRAPH-Image-Not-Available-150x150.jpg)
Type: [Technical Papers]
Two-Scale Topology Optimization with Microstructures Presenter(s): [Zhu] [Skouras] [Chen] [Matusik]
[SIGGRAPH 2017]
![Worst-case stress relief for microstructures](https://history.siggraph.org/wp-content/uploads/2023/02/2017-Technical-Papers-Panetta_Worst-Case-Stress-Relief-for-Microstructures-150x150.jpg)
Type: [Technical Papers]
Worst-case stress relief for microstructures Presenter(s): [Panetta] [Rahimian] [Zorin]
[SIGGRAPH 2017]
![Architecture-scale human-assisted additive manufacturing](https://history.siggraph.org/wp-content/uploads/2023/04/2015-Technical-Papers-Yoshida_Architecture-Scale-Human-Assisted-Additive-Manufacturing-150x150.jpg)
Type: [Technical Papers]
Architecture-scale human-assisted additive manufacturing Presenter(s): [Yoshida] [Takami] [Igarashi] [Obit] [Sato] [Araki] [Miki] [Nagata] [Sakai] [Igarashi]
[SIGGRAPH 2015]
![Computational interlocking furniture assembly](https://history.siggraph.org/wp-content/uploads/2022/07/2015-SIGGRAPH-Image-Not-Available-150x150.jpg)
Type: [Technical Papers]
Computational interlocking furniture assembly Presenter(s): [Fu] [Song] [Jiang] [Yang] [Jayaraman] [Cohen-Or]
[SIGGRAPH 2015]
![Foldabilizing furniture](https://history.siggraph.org/wp-content/uploads/2023/04/2015-Technical-Papers-Li_Foldabilizing-Furniture-150x150.jpg)
Type: [Technical Papers]
Foldabilizing furniture Presenter(s): [Li] [Hu] [Alhashim] [Zhang]
[SIGGRAPH 2015]
![An asymptotic numerical method for inverse elastic shape design](https://history.siggraph.org/wp-content/uploads/2023/02/2014-Technical-Papers-Chen_An-Asymptotic-Numerical-Method-for-Inverse-Elastic-Shape-Design-150x150.jpg)
Type: [Technical Papers]
An asymptotic numerical method for inverse elastic shape design Presenter(s): [Chen] [Zheng] [Xu] [Zhou]
[SIGGRAPH 2014]
![Bridging the gap: automated steady scaffoldings for 3D printing](https://history.siggraph.org/wp-content/uploads/2023/02/2014-Technical-Papers-Dumas_Bridging-the-Gap-Automated-Steady-Scaffoldings-for-3D-Printing-150x150.jpg)
Type: [Technical Papers]
Bridging the gap: automated steady scaffoldings for 3D printing Presenter(s): [Dumas] [Hergel] [Lefebvre]
[SIGGRAPH 2014]
![Build-to-last: strength to weight 3D printed objects](https://history.siggraph.org/wp-content/uploads/2023/02/2014-Technical-Papers-Lu_Build-to-Last-Strength-to-Weight-3D-Printed-Objects-150x150.jpg)
Type: [Technical Papers]
Build-to-last: strength to weight 3D printed objects Presenter(s): [Lu] [Sharf] [Zhao] [Wei] [Fan] [Chen] [Savoye] [Tu] [Cohen-Or] [Chen]
[SIGGRAPH 2014]
Role(s):
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